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While Unmanned Ground Vehicles have saved countless lives, the “bomb suit” is still a fact of life for Explosive Ordinance Detonation (EOD) personnel.  Somehow, running a mile, and even 5K, in these 80-pound suffocating suits have become charity events.

Why do they do these runs? The world female record holder says it’s part of their training, but EOD people are trained not to run in areas with explosives. I suspect the real reason for these runs is that nobody decides to specialize in detonating explosives, because they like doing sane things.

Group 5K run

Male Record Holder

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Everyone knows that unmanned systems will change everything for land forces.  However, no one is sure what those changes will be.

“It is, of course, impossible to predict exactly how the Landpower robot revolution will unfold.”

The above quote was written by Dr. Steven Metz, the Director of Research at the Strategic Studies Institute (SSI) as well as research director for the Joint Strategic Landpower Task Force.  While the future is unknown, Dr. Metz argues that it is possible to identify the questions that need to be answered, at least some of them.  Writing on SSI’s websites, his questions include:

  • What is the appropriate mix of humans and robots?
  • How autonomous should the robots be?
  • What type of people will be needed for robot heavy Landpower formations?
  • What effect will robot centric Landpower have on American national security policy?
  • What to do about enemy robots?

Dr. Metz’s article is worth reading in its entirety (view it here). Below are a few highlights as well as some reactions.

Logistics and expense

Dr. Metz quotes Paul Scharre of the Center for a New American Security:

“Uninhabited systems can help bring mass back to the fight by augmenting human-inhabited combat systems with large numbers of lower cost uninhabited systems to expand the number of sensors and shooters in the fight. Because they can take more risk without a human onboard, uninhabited systems can balance survivability against cost, affording the ability to procure larger numbers of systems.”

Unmanned systems have always been seen as economical force multipliers. However, Metz’s and Scharre’s comments imply other benefits as well.

A central weakness of an army is its need for support. Even Israel’s relatively small military, which usually has short logistics lines, is vulnerable. In the run-up to the 1973 war, Egypt quickly mobilized and demobilized its forces over and over. Israel responded with its own mobilization and demobilization of its civilian-based military forces, but this played havoc with its economy.  After a while, they decided that Egypt was just playing games with them; that’s when Egypt attacked.

If the military forces had been unmanned systems, Egypt’s strategy may not have been as effective.  The costs of maintaining a large unmanned force in readiness may be less than mobilizing a large manned one.

Current events validate this way of thinking. The current administration is reducing manpower overseas, while relying more and more on Unmanned Aerial Vehicles (UAV). Although most people focus on the reduced risk to American lives, it is also clear that it is cheaper to send UAVs to Waziristan than maintain forward placed personnel.

A counterpoint is that robots may not be as cheap as people think they are. Douglas Barrie, Senior Fellow for Military Aerospace at the International Institute for Strategic Studies in London wrote:

“The other element of the UAV side in the ISR arena is that people look at a UAV and think, unmanned, surely it won’t cost as much. The UAV actually just shifts to some extent, where the cost comes, in terms of the number of support people, pilots required actually to fly the air vehicle from a ground station, and then the imagery exploitation and analysis teams who run to serious numbers of personnel, obviously deriving great value, in military terms, from these things. But the, kind of, initial notion that these things were going to be cheap doesn’t actually turn out to be necessarily correct.”  (Non-traditional Airborne ISR Makes the Leap from Unconventional to Conventional Warfare – Defense IQ)

We have already seen the reluctance of the military to commit expensive systems to actual combat (some sophisticated fighter jets are rarely used). Are robots ever going to be so cheap that they are essentially expendable?

Rob Culver, AMREL’s Director of Business Development, DoD Programs sees problems.

“I have firsthand reports from soldiers and officers who have put high tech but good equipment back in the box, and chosen not to use it in operations. The one time they did use a piece of equipment, it was damaged beyond repair by errant enemy mortar fire. Subsequent investigation and paper work was so intrusive and demanding as to create a pain level that ensured the equipment would never be used again. Somewhere the worldview disconnect between operators and widget counters needs to be overcome.”

You do not need a body to be an antibody

Dr. Metz makes an interesting assertion that robots don’t become an ‘“antibody’ in a foreign culture.” This is another way of saying that no one screams “Hide the women! The robots are coming!” Robots do not loot, rape or violate local customs by refusing to take off their shoes in holy places. The author goes as far to call unmanned systems “politically palatable,” and could be useful in certain stages of counter-insurgency efforts.

This may be one of those ideas that make sense, but just isn’t true. Whether you are talking about Yemen, Gaza, or Afghanistan, locals hate and dread unmanned systems. There is a fairly vociferous “anti-drone” movement happening on a global scale. Right now, people are scared of “death from the skies,” but I suspect these negative attitudes could be projected onto Unmanned Ground Vehicles (UGV) as well. Would you like an autonomous lethal killing machine running around in your neighborhood?

Robert Culver thinks that unmanned systems may actually be more culturally problematic than human soldiers. He writes:

“I do believe that there can be and is cultural rejection of ground robots.   As a hetman of my tribe I would be offended if you sent a machine instead of a man.”

What is the appropriate mix of humans and robots?

Dr. Metz discusses this question at length and considers it one of the great imponderables. Unlike the author, I do not consider the mix of humans and robots to be all that mysterious.

Is it really that difficult to decide who and when gets an ISR-oriented tactical UAV or an IED-sniffing UGV? These are more tactical questions than strategic, and the answers should present themselves as time goes on.

Unmanned systems = more war

Dr. Metz speculates that the increased use of unmanned systems will make leaders less hesitant about committing to combat. I have always been skeptical of the “Robots makes it easier to go to war” argument. As noted above, the military has shown reluctance to use some of its best technology due to its expense as well as the risk of enemies capturing and reverse-engineering advance devices. This may be regarded as an updated version of “McClellan-ism,” i.e., “I sure would hate for something bad to happen to my pretty, well-trained soldiers.”

However, I have to admit the evidence seems to support this fear. The President gets a lot of flak for being “weak,” but if you include UAV-strikes, he may have more kinetic actions going on in more countries than any other administration since WW II. He is killing a lot of people in a lot of places for someone who is supposed to be a wimp.

Where’s the revolution?

Rather than make predictions based on an agenda, Dr. Metz’s article stresses how little we know about the future effects of unmanned systems. For example, no one knows where the most influential innovations will come from.

 “Even though it is clear that a revolution will happen, it is hard to tell where it will take place. Will it be the Army’s existing network for innovation, including the schools in the professional military educational system, the battle labs, and the various ‘centers of excellence’? Will it be in the offices of mavericks outside the formal system of innovation? Will it be in cutting edge corporations? Or will it be led by America’s enemies, with the U.S. military reacting as it falls behind?”

Dr. Metz’s above quote is consistent with the overall perception that here is a lack of leadership and vision within the Defense community concerning unmanned systems. For our unmanned system developers and vendors, this may be the most important question of all.  It’s hard to build for a future that hasn’t been defined yet.

Timing is everything

Rob Culver sees the lack of vision for unmanned technology as a function of its development and the needs of the military.

“An idea can be good or bad or even great, depending upon timing. A good idea that’s too early can be viewed as down-right stupid. But a good idea when the technology is mature enough and the need is urgent is brilliant.

“I think unmanned systems and particularly unmanned ground systems are still, believe it or not, premature. Autonomy, the associated technology and other capabilities are not mature enough. Furthermore, the need (other than for counter-IED and route clearance) is not painful enough to truly generate ‘urgent’ needs statements.

“I do believe the future of warfare will include manned/unmanned teaming as we are already beginning to see with aerial platforms. But we control the environment in air space. The same reason that FAA is not quick to clear unmanned/remotely piloted aircraft in national airspace also applies to ground operations during conflict.

“Land forces operate in a different environment than air. There are no ditches, culverts, tunnels and multi-story buildings in the flying drones’ airspace as there will be on the ground. Too many people running around and no easy way to differentiate combatant from non-combatant.

“We have had endless conversations, but no ready answer. A lot of people experimented with heavier than air flight for literally decades, if not centuries before Wilbur and Orville invented ‘flight.’”

Unknown ≠ inaction

According to Culver’s analysis, as technology advances and needs become pressing, the requirements for unmanned systems will become clear.

However, I do not think this need to be a call for passivity. Indeed, the Army may not know it wants a specific solution until it is presented to them.

Vendors can and should take steps to create the future of unmanned systems, including:

  • Developing capabilities that will likely be needed, such as “sliding autonomy” and navigation.
  • Partnering to create “best-of-breed” solutions. This may even require cooperating with our competitors on occasion.
  • Interoperability, interoperability, interoperability. Not just on common control, but on more mundane elements, such as batteries and spare parts.
  • Economy will always matter. In a crisis, the military will throw money at a problem, but the vendor with the cheapest solution that matches urgent needs will have an enormous advantage.

Finally, as an industry we need to step up. We can sit around complaining about the government’s lack of vision for the future, but it is to our advantage that we collectively create that future.

To learn more about the likely future of Unmanned Ground Vehicles,

Contact Rob Culver at (603) 325-3376 or robertc@amrel.com

Congress overcame its perpetual gridlock and actually passed a Defense budget. In today’s political climate, a budget for the entire fiscal year was no sure thing.  For example, the Department of Homeland Security (DHS) is only funded to February.

This is good news for Defense vendors who have suffered under budget uncertainty. Take a look at table below for winners and losers.

 

Who gets it How much Comments
Department of Defense $554.1 billion
  • President wanted $554.3 billion
  • $3.3 billion more than 2014 base appropriations
  • More than half of the overall federal budget
Pentagon Procurement $93.8 billion $1 billion more than 2014
Defense R&D $63.7 billion $700 million more than 2014
Overseas Contingency Operations (OCO) (Afghanistan)   $64 billion $21 billion less than the 2014
Anti-Islamic State Operations $3.4 billion President wanted $5.6 billion
Military Pay Raise Capped at 1%
  • DoD wanted 1.8%
  • Civilian contractors might be laid off
DoD Operation & Maintenance $161.7 billion
  • $1.8 billion more than 2014
  • O&M, traditional budget whipping boy, may have escaped its usual ax, because of worries about military readiness
A-10 Attack Plane $338 million
  • Congress blocks A-10 retirement plans
  • The Warthog lives!
Iron Dome Program $351 million President only wanted $176 million
European Reassurance Initiative $810 million Includes $175 million for Ukraine and Baltics
Navy’s E/A-18G Electronic Warfare Jets $1.4 billion Enough to buy 15 in 2015

A few other highlights

  • The F-35 fighter program gets $240 million more than requested in order to buy four additional jets.
  • The budget maintains the American aircraft carrier fleet at 11.
  • The National Guard and Reserve gets $1.2 billion more than requested for equipment.

Information for this blog post came from DefenseNews and Forbes.

Thanks to Islamic State, the IED danger has just gotten worst in Iraq, one of the most heavily mined countries in the world. The following story originally appeared in the Counter-IED Report.

ISIS’s latest threat: laying landmines

Militants from the group calling itself Islamic State (IS) are booby-trapping land and buildings with improvised explosive device (IEDs), creating new misery for displaced Iraqi families trying to return home and adding to dangers for government forces working on the front line.

Last week four mine clearance workers died and two were seriously injured when an IED detonated in a house in Zummar, close to Mosul Dam in Nineveh Governorate, in northern Iraq.

Witnesses said the opening of a bathroom door triggered an explosion causing the property to collapse, instantly killing the men. The group, employed by the Iraqi Kurdistan Mine Action Agency (IKMAA), run by the semi-autonomous Kurdistan Regional Government (KRG), were working alongside the Peshmerga, the Kurdish military, who had recently won back the territory from IS.

Aid agencies are warning displaced Iraqis not to rush home to territory reclaimed from IS because of the risk of mines and other explosive remnants of war (ERWs) and have expressed concerns about mined borders areas between different military front lines.

“Large numbers of people are at significant risk,” said Nina Seecharan, Iraq country director for UK-based Mines Advisory Group (MAG) in the Kurdistan capital Erbil.

Omer Hassan, a commercial deminer who went to the scene of the 29 October explosion to help survivors of the accident, said: “There is an immediate need to mark villages like Zummar that are full of dangers,” referring to red posts and flags used by clearance teams.

Hassan, who lost his leg in a landmine accident some 20 years ago and who has dedicated his life to demining, said IS was using crude home-made devices that were easily mistaken for other things.

“They can make booby-traps with everything,” explained Hassan. “You can find a brand-new torch. [IS] knows the Peshmerga need it, so they leave them. The Peshmerga picks it up, turns it on…” The torches are packed with explosives. “You can lose a hand,” said Hassan.

Iraq is one of the most heavily mined countries in the world due to decades of conflict and territorial disputes.

According to the Landmine Monitor, an affiliate of the International Campaign to Ban Landmines (ICBL), the most-recently available statistics show up to 1,838sqkm of Iraqi territory is contaminated.

History repeating itself

In recent years intensive efforts to clear up ERWs mean most residential areas are now mine-free, and the bulk of remaining clearance operations are along mountainous border regions between Iran and Turkey where various armed groups had military posts.

However, thanks to IS, landmines are once again a very real danger for Iraqis, and not just in Kurdistan.

According to a 31 October report by the UN Office for the Coordination of Humanitarian Affairs (OCHA), as many as 3,000 ERWs and landmines were scattered across the town of Jurf al-Sakhr in Babil Governorate by a retreating IS.

“The issue of landmines is a major concern for us and one we urgently need to address,” said OCHA spokesman David Swanson.

Ako Aziz, the director of Mine Risk Education at IKMAA, said full details of what happened at the property in Zummar were still to be determined and an investigation had been launched.

He told IRIN that while the team was highly experienced, with some members having up to 15 years in the sector working on marked minefields and clearing ERWs from Iraq’s previous conflicts, they were not used to clearing houses of booby-traps.

“Our deminers are not specialized in IEDs, and need more training and experience,” he said.

“[IS] are very technical in laying out IEDs. They use many different ways and types of IEDs and a very high quality of explosives,” Aziz said. “This is the biggest challenge to the Peshmerga, as [IS] are booby-trapping all areas under their control.”

Raising awareness among the displaced

MAG, the only international humanitarian demining NGO left doing clearance work in Kurdistan, has been running awareness-raising sessions with displaced Iraqi families since June, when IS seized control of Mosul – forcing 600,000 people to flee in a matter of days.

“We’ve been working with displaced families to make them aware of the potential dangers, now and for when they return home,” MAG’s Seecharan explained. “Children who are naturally inquisitive and unable to read danger signs are particularly at risk.”

She said, however, that MAG clearance teams could not assist the military in their clearance operations because their remit was only humanitarian.

“While MAG’s imperative is to take action to prevent harm to civilians and civilian demining personnel, there has to be a clear line between humanitarian clearance in areas where active hostilities have ceased, and activities in support of ongoing military operations,” she said.

There are around a dozen commercial demining operators working in Iraq, including some international firms. Many are contracted by oil and gas companies clearing land for exploration, though some are also working for the government preparing for infrastructure projects and national parks.

Although the expertise is available in country to help the Iraqi authorities clear up the ERWs, the long-running budget dispute between Baghdad and Erbil means Kurdistan does not have sufficient money to take on new contractors.

Iraq also has an obligation to clear all of its landmines by 2018, having signed the Ottawa Anti-Personnel Mine Ban Treat in 2007. For some time this target has seemed ambitious, even more so now with so many new devices being laid by IS.

A report by the Landmine Monitor in August 2013, citing the most-recent statistics from Iraqi government agencies, said that since the late 1980s more than 29,000 people have been victims of landmine accidents in the country.

Nearly 15,000 of those casualties – including 6,000 deaths – were in Kurdistan.

In 2012, the latest year for which data is available, there were 84 mine accidents across Iraq with 42 deaths, though many more incidents are likely to have gone unreported. Since 2012, 11 deminers have lost their lives in clearance accidents across Kurdistan, IKMAA said.

US Marine & South Korean Army drum lines stage a very friendly contest.   As we approach the holidays, it’s nice to think that future conflicts will be settled by Battle of The Bands.

This video has received over 3 million hits on You Tube.

Support our Veterans.  Give to Wounded Warrior Project.

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marine iowa jimaOn November 10, the Marine Corps celebrates 239 years of service to the United States of America.  Brought into existence by the First Continental Congress, on 1775 the Marine Corps has seen many battles and brought the fight to the enemy on many shores.

Among themselves, Marines use a special language.  Here is a small sample of some of their jargon, supplied by AMREL’s very own devildog, Richard Barrios, Web Marketing Specialist.  Happy Birthday and Ooh-Rah!

Ooh-Rah!:  The Marine version of “Hoorah!”

UnSat:  Referring to someone who is not organized or very good at their job or task

IT:  Means Incentive Training.  In boot camp this is how punishment was delivered through exhausting exercise.  In the fleet it was a term used to use negative re-enforcement to teach someone how to do it right.

Hollywood Marine:  Marine trained at MCRD San Diego, CA.

Horse shoe:  A hair cut that only Marines really get.  It’s basically a high and tight (Flat top) with the top of the head shaved down.  From above it looks like a horse shoe

 WM: Women Marine.

Unqu (pronounced “Unk”):  Short for unqualified.  Referring to someone who failed their rifle qualifications.  Also refereeing to missing the mark on a task or activity.

Put your E-tool away:  Referring to your entrenching shovel and that your are digging a bigger hole for yourself the more you talk.

Smoking lamp (on or off):  Old Naval term for when it’s OK to smoke.  Now used as a term for free time.

MCD:  Marine Corps Detachment;  Marines stationed on a base that is primarily occupied or run by another branch of service.  Basically you are a guest there for a period of time.

Quarter Deck:  Boot camp reference for the area in which IT is being administered.  In the fleet the term is used when you are in big trouble and you have to stand in front of your Platoon Gunny, First Sergeant, or Officer and explain yourself.  Also known as “Standing tall” or “Standing tall before the mast/Man”.

Standing tall before the mast/man: Refers to the Naval tradition of serving your sentence with a lashing while standing against the mast of a ship. Currently, it means taking responsibility for your actions; don’t run from your mistakes.

 03 (Pronounced, “oh 3”):  Refers to the general term for a grunt or infantryman.  The MOS can be 0311, 0331, 0351, 0302 and so on.  Also referred to as “03 hump a lot”.

 If you want more Marine jargon, Wikepedia has a long list.

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“If you know the enemy and know yourself, your victory will not stand in doubt; if you know Heaven and know Earth, you may make your victory complete.” 

― Sun Tzu, The Art of War

Fighting an epidemic is surprisingly similar to fighting a human enemy. For example, in both military and anti- epidemic campaigns there is a need for good intelligence, including situational awareness. Just as an army must determine the location of its human enemy, health-care workers must determine where the infections are occurring.

Determining the locations of Ebola infections has been extremely difficult. The affected areas have suffered from long civil wars as well as extreme political corruption. The population has a severe and probably warranted distrust of authorities. Combine this with the fact that Ebola is new in these countries, many people are reluctant to report cases or heed the advice of authorities. Thus, doctors and nurses must “win hearts and minds,” a task familiar to someone who has engaged in counter-insurgency operations.

As in any modern war, computers, networks, and information gathering /sharing play a significant role in battling this deadly disease. Just as generals worry about communicating with their front-line troops, the World Health Organization (WHO) is concerned with exchanging information with the affected population. Since approximately 40% of the affected populations use mobile phones, WHO is considering using text messages for educational outreach as well as a means for people to report cases. Mobile devices are also being used for communication between the outside world and those in quarantine.

In addition to determining the enemy/infection location, commanders of both military and anti-epidemic operations must secure the following information:

  • How many enemies /infected victims are there?
  • Where is the enemy/infection moving toward?
  • Where is the most effective place to put our resources (allied soldiers/doctors & health care workers)?

To answer the above questions, researchers who monitor military activities have utilized artificial intelligence and extensive data mining. For example, the Satellite Sentinel Project (SSP) examined publicly available satellite images and noticed unusual roads in a specific area of Sudan. Based on these images, the SSP accurately predicted a military incursion in this region.

Similar techniques are proving enormously helpful to public healthcare authorities. Let’s say there is a neighborhood in which a suspicious population is reluctant to share information with the authorities. If a satellite image reveals crowded parking lots near a hospital, and public records state there has been a jump in school absenteeism, an intelligence-gathering program can raise the index of suspicion for an outbreak in this specific area. Thus, an alarm can be raised, even when the locals are not cooperative. Indeed, among the new technologies, automated information systems may be the most significant in war against Ebola.

HealthMap may be the most important “smart machine” that gathers, analyzes, and displays information. Every hour, it uses text analysis algorithms to mine data from tens of thousands of Web pages in 15 different languages. The processed information is displayed on a Google Map (see below). HealthMap’s main claim to fame is that is spotted the current Ebola outbreak before WHO did. It has had over a million page views since mid-July.

 

Click to enlarge

HealthMap

Considering the myriad of sources it draws information from, the simplicity of the displayed information is impressive.

HealthMap is not the only disease monitoring website and computer mapping program. Others include:

  • Global Public Health Intelligence Network (GPHIN)
  • International Relief and development (IRD) EbolaResponse
  • Intelligence Advanced Research Projects (IAR) Global Data on Events, Location and Tone (GDELT) is not a disease monitoring website per se. It collects and analyzes information about all human behavior on a social scale. Based on a story that didn’t even have the word “Ebola” in it, GDELT identified the Ebola outbreak one day before HealthMap did.

Monitoring programs, such as HealthMap, are not only useful in showing what is happening today, but also in predicting the future. Foretelling the path and severity of the Ebola outbreak has been enormously helpful in marshalling and assigning resources.

They have also been helpful in raising an alarm. If it were not for EbolaResponse’s and HealthMap’s catastrophic predictions about what an untreated Ebola outbreak would look like, it is unlikely that the world would have acted as swiftly and as strongly as it did. One researcher compared it to AIDs, which was around at least 20 to 30 years before we became aware of it in the 1980s. Can you imagine how many lives could have been saved if an anti-AIDS effort had begun in the 1960s?

One possible similarity between a military and an anti-outbreak campaign is the effectiveness of post-action outcomes. The United Sates has been very good at meeting objectives in planned military actions. However, our record has been less than perfect once the official war stops. In other words, we “win the war, but lose the peace.” The US supported Afghanistan guerillas who successfully ousted the Soviets from their country. However, we failed to do the necessary follow-up actions in order to build up and stabilize that country. A similar process occurred in Iraq.

Unfortunately, this pattern could very well happen with Ebola. Right now, the world is rallying to contain the outbreak. Once this modern plague is contained, will we continue to aid the affected countries in order to prevent a reoccurrence? In this instance, we hope the anti-Ebola campaign does not resemble our recent military activities.

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UGVs-resized-600Ground wars are winding down (kind of, maybe), so the speeded-up acquisition process for Unmanned Ground Vehicles (UGV) is slowing down.  However, American soldiers are still performing explosive ordnance disposal.  Not only do they want their UGVs, but they also want them souped-up with more reliable communications, common controllers, and delivery trucks that automatically unload.  And they want them now.

National Defense Magazine published a highly informative article on the disconnect between end-user needs and the acquisition of UGVs.  If you want to know about the state of UGV development within each military service, or if you just need another reason to rail against the  notoriously slow procurement process, you got to read this article.

(The following article originally appeared in National Defense Magazine as Slow Pace of Robot Acquisition Programs Frustrates End Users.)

Ground robots from the outset of the Iraq and Afghanistan wars were hailed as life-savers and an example of how off-the-shelf technologies could be sped into the field without the cumbersome Defense Department bureaucracy.

Those days are over.

End users of explosive ordnance disposal robots said at a recent conference that the Pentagon’s procurement process is clearly not working for them.

Meanwhile, a Navy EOD program of record to replace the off-the-shelf Talon and PackBot models has floundered. Entering its seventh year of development, it has failed to field its first lightweight robot, and the Air Force recently pulled out of the program, citing delays.

The Army also wants to produce a multi-purpose ground robot, but the earliest it could be fielded is 2021, a senior official said.

“The way the government acquires things through its acquisitions programs has to change,” said Chief Master Sgt. Douglas Moore, an Air Force EOD technician. 

In 2007, the Navy, the executive agent for producing bomb disposal robots, embarked on its Advanced EOD Robotic System (AEODRS) program, which would replace its heavy, Andros platforms that pre-dated the post-9/11 conflicts, as well as the off-the-shelf robots that were sped into the field as roadside bombs became a scourge in Iraq.

A Navy official at the National Defense Industrial Association ground robotics conference in San Antonio in 2008 described the family of three robots. The service would develop the system in three increments. Increment 1 would be a backpackable robot in the 35-pound range. Increment 2 would be around 130-pounds, somewhat similar to the size of the widely used PackBots and Talons, which must be transported in a vehicle. Increment 3 would be a large, towable robot intended for large ordnance. The 485-pound Andros robots those would replace are the only ground robot programs of record in the military today. All others were acquired through rapid equipping initiatives.

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The next-generation EOD robots would be based on an open architecture system, where components, sensors and tools could be swapped out as needed.

The Navy later announced that vendors would compete for contracts to supply the components rather than a winner-take-all competition to build and integrate the robots.  

Six years later, at the same NDIA conference held in College Park, Maryland, the Navy still had not fielded the basic 35-pound robot, and the Air Force said it would no longer participate in the increment 1 program. The Navy finally released its request for proposals for increment 1 components in June. 

“By the time we get it, it’s 10-year-old technology,” said Moore, who had heard the program referred to as “abbreviated.”

“I don’t know what ‘abbreviated’ means. But 10 years is not abbreviated for me. Absolutely not,” he added.

The lack of progress on the Navy’s program of record is prompting the Air Force to seek an off-the-shelf robot weighing under 30 pounds. A request for proposals for 160 systems, including 10 years of support, will be released in the first quarter of 2015, according to Robert Diltz, airbase acquisition branch chief at the Air Force Civil Engineering Center. 

Moore said: “That is part of the reason why the Air Force pulled out of the AEODRS increment 1 program. One, there were some slippages to the program that put some money at risk, and the technology by the time we would get it would not be what it is today.”

The Army is also looking to field an upgradable robot with open architecture that would be able to perform multiple tasks, said Heidi Shyu, assistant secretary for the Army for acquisitions, logistics and technology. The current timeline would not have it fielded until 2021, and the Army would have to consider purchasing a “stop-gap” robot in the meantime, she said.

Chris O’Donnell, staff specialist at the joint ground robotics enterprise at the office of the secretary of defense, said $1 billion has been spent on ground robots over the past 10 years.

“Unfortunately as the war ended and the [overseas contingency operations] money started to dry up, the requirements weren’t really there to go, ‘Where is the next phase of development for ground robotics?’” he said.

Interest in the technology within the Defense Department remains high, he said. Many senior officers have grown up with ground robots, he noted.

But the services now have to go back to “programs of record” and more rigorous test-and-evaluation standards, O’Donnell said. He listed about a half dozen organizations in the department that will be involved in deciding the future of ground robots in the military, including his own. The purpose of the OSD’s joint ground robotics enterprise is to encourage the services to work together.

O’Donnell was asked in an email after the conference why the Army would take so long to field a robot that, on the surface, sounded identical to what the Navy has spent seven years developing: a standard, open architecture system where components, sensors and tools could be added as needed.  

“The Navy and Army technical folks have been working together for the last few years to refine an open architecture that they can both use for future efforts,” he replied. It is called the “unmanned ground vehicle interoperability profile.”

The long-wait periods were because of funding issues, he said. “The DoD funding cycle waits for no one, and the services have done a good job in identifying capability needs and getting those capabilities resourced in the out-year service budgets,” O’Donnell wrote.

It will be his job to ensure the Army and other services leverage the work done on the open architecture system, he added.   

Moore was joined on a panel by six other EOD technicians, many of whom had served in both Iraq and Afghanistan and had returned from the war zone within the last six months.

They had a laundry list of features that they would like to see incorporated into current or next-generation bomb disposal robots, although most were cynical that they would see them anytime soon.

Army Master Sgt. David Silva wanted better communications connectivity in his EOD robots. This was an example of something that is available today, but hasn’t found its way to the field yet — at least not for ground robots. He sometimes loses his feeds from his robots after a couple hundred meters.

Meanwhile, an infantryman serving with him hand-launches a light-weight unmanned aerial vehicle “and he’s getting a positive feed and is controlling this thing six clicks away. Clearly it’s not a weight issue. It’s a big robot, and I’m not bound by weight,” he said.

“He has a high-definition feed, and I’m saying ‘What in the world do you have that I don’t have?’”

Moore said he would like to see some basic autonomy. Why can’t operators when arriving on scene push a button and let the robot unload itself from a truck? That would let the team focus on other tasks for 15 minutes.

Cars can parallel park themselves nowadays, he noted. “I’m not exactly sure why we’re not there yet.”

Air Force Master Sgt. Gregg Wozniak would like to see a common controller allowing all the different robots to be operated from a tablet.  

Army Capt. Thomas Kirkpatrick warned that the next generation of robots may have to operate in “immature theaters.” Iraq and Afghanistan had repair depots where malfunctioning or damaged robots could be sent. That may not be the case in future conflicts where EOD technicians may be operating without a well developed logistics tail. They should have kits containing common parts that can be easily swapped out. 

Similarly, other technicians speaking at the conference asked for self-diagnostics. They would like the robot to inform them what is wrong with it so they don’t waste time swapping out parts that actually work.  

Silva said the new generation of off-the-shelf robots designed for dismounted operations in Afghanistan are not wholly satisfying. Their batteries lose their charges after one operation, for example. And a system that weighs a total of 35 pounds with controller and other accessories is still too heavy.  

“Once the battery is dead it is useless,” he said. There needs to be a way to recharge it in the field.

The light-weight robots “can’t go where we want [them] to go.” Technicians have to carry them closer to the target, which means more risk, Silva said.

The specialists are “currently compromising safety and distance because we don’t have the platforms that allow us to do what we want to do,” he added.

Moore said 35 pounds is still above the spectrum the lightweight robots should weigh.

“Pounds equal pain,” he said. “For every pound we have to put in that backpack, that is a pound of something we can’t take.”

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The EOD specialists were generally lukewarm to the idea of having a small remotely controlled drone to provide aerial reconnaissance, especially if they are only providing video feeds. Such concepts were tried in the field in Iraq but were not embraced. They did provide some security if an operator wanted to see what was over a wall. But troops currently have camera masts on their vehicles to give overhead views of bombs.

A drone with an infrared sensor, or other features that could directly help them diagnose the composition of bombs or find command wires buried in the ground, would be more useful, they said.

Other items on their wish lists were stronger arms, self-navigation and better cameras to see at night. 

Silva said the current robots aren’t designed for the tactics, techniques and procedures EOD technicians employ to disarm unexploded ordnance and IEDs.

“They don’t mirror how we would inherently approach an IED. … what we are doing is we are changing the way we handle IEDs to adapt to the equipment that is available,” he said.

Moore said: “Everything that we’re asking for costs a ton of money. And everything we’ve asked for, quite honestly, the services can’t fund today. We have dwindling dollars. … From an Air Force standpoint, it’s probably safe to say that if doesn’t revolve around an airplane, it is probably going to be pushed a little bit further back into the closet.” The same could probably be said of the Army and tanks and the Navy and ships, he added.

Other speakers echoed this frustration. Despite having a dangerous job, one that others depend upon so they can maneuver freely on the battlefield, their technology budget is miniscule compared to others.

Still, the moribund acquisition system, which cannot seem to put already mature technology into the hands of robot operators, is making matters worse, they said. Two vendors attending the conference spoke to the frustrations they had encountered.

One said there simply wasn’t any path for him to get the technology he has to offer into the technicians’ hands. He had quit attempting to win military contracts.

Another had developed an infrared sensor specifically for EOD technicians under a government contract. The Technical Support Working Group, which funds inventors and researchers to tackle tough counterterrorism problems, paid his company to design the sensor.

Noting that one of the EOD technicians said during the panel that he needed better infrared sensors, the vendor said he produced it more than three years ago, and that he could manufacture them for about $60 apiece.

“It’s ridiculous that I can’t get technology that the government paid to develop … over to you so you can use it. … It’s insane. It’s absolutely insane,” he said.

The panel moderator, Thomas Gonzalez, senior vice president of corporate development at Stratom Inc., a small business that provides EOD training and consulting services, said there was a lot of frustration among users and vendors.

“After such a long, drawn out war for them to be asking for stuff they were asking for 10 years ago, in my mind is a little bit of a tragedy,” he said.

Silva said the attitude in the military is, “Until it’s a problem, it’s not a problem.”  

With the Afghanistan war winding down, IEDs are not affecting most people’s day-to-day lives.

“It’s not a priority. We understand that. We’re going to be here [doing our job] regardless.”

When you play a first-person shooter game, did you ever wish you were firing a real gun? In a real war?  These plucky Free Syrian Army (FSA) rebels made this fantasy real. Their homemade tank has a .50 machine gun whose Operator Control Unit (OCU) is a PlayStation controller. Look out Assad and ISIL; the FSA has guys who play video games.