Showing posts with label Dixon Hill. Show all posts
Showing posts with label Dixon Hill. Show all posts

24 October 2014

Driving a Boat into a Helicopter


Or:   Of Rubber Ducks, Double Ducks and Duck Recovery Ops

DUKW ("Duck")  Not this duck!
I've covered some aerial infiltration and exfiltration methods for land-based operations in the past two posts.  So, today, I thought we'd take a quick gander at some aerial INFIL/EXFIL ops that include water as a medium.

Zodiac Rubber Assault Boat with outboard motor.
Note the red fuel bladder. Everything on our boats
was black.          Photo courtesy: 
Kitairu Suppliers


I spent quite a bit of time on water operations teams, so I have quite a bit of experience with what the army calls Rubber Ducks, Double Ducks and Duck Recovery.

Now some of you may have seen the word Duck and thought of the vehicle in the photo at the top of the page: the GM-produced DUKW (pronounced "Duck") used by the US military during WWII. However, I'm writing about a different type of duck op.

The Rubber Duck

The Rubber Duck is an operation that parachutes team members onto a body of water (usually a sea, near a coastline) with a Zodiac Rubber Assault Boat.


Stack of standard pallets.  These may be
locked into the aircraft floor.
Since the pallet is going to be lost,
cheaper pallets --like this -- tend to
be used for ducks and double ducks.
It works like this: Team members strap a Zodiac to a pallet, which can be locked down on the aircraft floor.

The outboard motor is removed, and placed inside the boat, atop several layers of "crush material."



This crush material is usually composed of thick cardboard honeycomb, which is designed to expend the energy of airborne impact as it (the cardboard) collapses.  Thus, critical and sometimes fragile components of an operation (such as outboard engines for boats) are hopefully saved, arriving in usable condition after being tossed out the back of a plane moving at 125 knots, 1250 feet above the ocean.

How you push a pallet. (Zodiac pallet is shorter.)
One school of thought holds that it's okay to strap rucksacks down in the boat.  However, it's been my experience that this is a good way to lose equipment.  Consequently, my team nearly always jumped while wearing our rucks, loading them into the boat once we hit the water.

Once the boat is palletized, the team loads a C-130, C-141 or other similar aircraft with it.  And, once over the drop zone, they assist the aircraft Load Master in pushing the palletized Zodiac out the back ramp.
Don't think the load master is a coward, just because he's
strapped into the aircraft.

As the Zodiac's parachute deploys, the team chases the boat out the door, parachuting into the ocean behind it.  (Or, in front of it, depending on how you view things.)

This photo shows a different type of boat being parachuted.  However, it's probably about the same dimensions as a "Double Duck" which I'll get to in a minute.

If this were an SF Duck op, the team would be lined up on the right side of the ramp, waiting to run off.

After hitting the water, the team ditches parachutes, dons fins (and sometimes mask and snorkel) and swims to the boat.  This is why team members RUN off the ramp behind the boat: nobody wants to swim a mile and a half to reach the darn thing -- particularly in open ocean.

When preparing to jump, team members hold the fins together, usually under the left arm.  The fins are held firmly in the left hand (which also grasps the left side of the reserve chute in a standard jump), with the ankle straps wrapped around the left wrist.  The fins are also often "dummy corded" (tied) to the jumper's equipment.

Mask and snorkel may be carried in buttoned pockets, or lashed firmly to gear, or taped down with "100-mile-an-hour tape" (military duct tape, which is Olive Drab on the outside, instead of gray). Rifles are loaded with one magazine, then wrapped in two plastic garbage bags (see-through kind), leaving some extra air inside to provide assistance in firing from the bag, if necessary.  Weapons are slung upside down and dummy corded to the jumper.  Sidearms are placed in large plastic baggies, then holstered securely. [Some teams like to strap weapons and load-bearing vests (LBE) to the rucksacks, but I always worry about losing my ruck.  Hence I tended to wear my LBE and weapon.  After all, my LBE had canteens of fresh water, pen flares, and other important survival equipment.]

Our local scuba team liked to jump wearing their gear over T-shirts and UDT shorts, or else in wet suits. Most of the time, however, my team jumped in full uniforms, knowing we'd need to wear them when we hit shore. (Conducting a surprise fire-fight in shorts and a T-shirt would not be fun imho.  The SCUBA Team, of course, expected to wear SCUBA gear into the shore landing, so they looked at things differently, expecting to change into uniforms after landing.)

Rucksacks hang off the jumpers' fronts, clipped on with two clips, just below the reserve parachutes. Each jumper carries a 20 to 30 foot length of 1-inch nylon tubing (or a rope) snap-linked to his equipment harness.  The other end is snap-linked to the frame of his rucksack, in which all equipment has been sealed in large plastic trash bags with most of the air removed.  The nylon tubing or rope is S-coiled into a cargo pocket on the jumper's hip, or into a side pocket on the ruck, for ease of deployment when needed.

On the way down, jumpers try to "slip" their parachute, or drive their "steerable canopy" parachute, in the direction of the boat, to cut down on how much time it takes to put the boat into action and move out.

Upon hitting the water, jumpers remove their parachute harnesses, letting the chutes sink.  They swim a short distance away to avoid becoming entangled in parachute lines as this happens.  Then, they get their fins loose and put them on.  Fins NEVER go on bare feet.  (I had scars for over ten years, because I repeatedly swam with fins on bare feet in pre-scuba school, because booties were unavailable to me.)


Jungle Boots
Dive Booties
Fins may be worn over booties, or military boots.  However, standard combat boots are designed to prevent excessive ankle movement and, in my experience, consequently inhibit efficient swimming with fins.  Wearing booties tends to solve this problem, but booties provide limited foot protection when landing on coral, or when conducting initial patrols inland to secure the beach.  I have found that regular issue jungle boots tend to provide all the ankle movement I need for swimming with fins on, and they permit me to cross beach, hinterland, or even coral with no problems.  Just be sure to wear socks!

After donning fins, etc. the swimmer (who used to be a "jumper" but it no longer jumping -- that part's over) pays out the nylon tubing or rope, that's S-rolled in one pocket, and starts swimming for the boat, towing his rucksack behind.  If properly prepared, the air trapped in the trash bag, inside the ruck, will provide slight positive buoyancy, keeping it barely afloat.

Upon reaching the boat, team members unstrap the boat from the pallet and let the pallet sink.  They then remove the snap-link that holds the nylon tubing, from their gear, and clip their ruck rope or nylon tube to the boat. After the ruck is secured, and still floating, they climb aboard and remove the parachutes, letting them sink.  After this, the motor is cut loose and fastened to the transom -- the (about two inches thick) wooden board that makes up the boat's stern.


This boat design is different,
but you can see the engine plate quite well.
The transom has a metal plate on it, called an engine plate, because this is where you fasten the engine.  The outboard is held by what are essentially two permanently installed, large C-clamps, which you screw tight to the engine plate on the transom.  It usually takes two guys to do this, if you don't want to lose the engine overboard in high seas.  And, engines are heavy, made of metal, and sink fast!  So, you have to be careful not to drop it, or all those folks who USED to be your friends, are going to be helping you paddle miles into shore. (Some far-thinking team members dummy cord the engine to the boat, until everything is clamped firmly, just for this reason!  It's still a pain to haul the engine back up, and get it going, but it sure beats the alternative.)

The fuel bladder is then hooked up, using the clip valve on the end of the long, thin rubber tube that connects the bladder to the engine.  If you're smart, you lash down the bladder so you won't lose it in high seas.  Rucksacks are pulled in and loaded aboard, and everyone gets situated.  Then the engine is fired up -- and you're off!

All of this stuff is best conducted at night, of course, to prevent prying eyes from watching your movements -- which throws a very special monkey wrench into everything: including finding the boat and getting it ready to go.

For this reason, red chemical lights are usually attached to the boat when it is palletized, and "cracked" (turned on) just before pushing it out the door.  The first person to find the boat usually climbs on top and waves a red chem light as high as he can, to assist others in finding the boat at night, in high seas.  Red is chosen because this color is a bit tougher to see.  Make of this what you choose.


Once the boat is "up" and everyone is situated, the coxswain drives the boat across the ocean, aiming to land at a desired location.  Navigation may be based on lights seen ashore, GPS equipment, magnetic compass and chart references, nautical navigation tools (such as tide charts and whiz wheels), or a combination of any or all of the aforementioned.

Scout-swimmers seldom wear rucks.
While, technically, you can take an M-16
and fire it almost as soon as you take it out
of the water, you may have problems if
water is still in the barrel.  This is why we
trash-bagged our weapons, leaving room
for air and expended rounds in the bags.
At a few hundred meters from shore, two scout-swimmers are put into the water.  These are usually the team's best swimmers, and they'll swim into the landing site, ensure no enemy are present, then conduct a reconnaissance before taking up security positions over-watching each end of the beachhead, and signalling the boat to come in (usually by flashing a pre-arranged Morse letter signal, using a red-lens flashlight).

How the boats come in: HOT!
Once the signal is received, the coxswain cranks the throttle and drives the boat hell-for-leather into the beach, trying to make it climb the sand as high as possible.  Coral is highly destructive to a rubber boat, so it is avoided if possible.  If the boat must land on coral, this will be made clear with a signal from the scout-swimmers, and the coxswain will slow as he approaches the beachhead to minimize damage.

After the boat is beached, the team will carry it inland, often deflate it, then try to hide it: burrying it, and/or camouflaging its location.  The boat location will be marked in the standard manner used to note cache sites.

Double Ducks

Double Ducks are run just like Rubber Ducks, but two boats are used.

The reason for this is simple: One Zodiac fits about half an A-Team, with their gear.  Any more, and it gets overloaded, which causes problems.  So, the team jumps in with two Zodiacs, instead of one.

When palletizing, the two Zodiacs are stacked on top of each other on the pallet.  Everything is strapped and lashed together, to form one cohesive package for the drop.  And, once everybody's in the water, the boats are pushed apart and each team works on its own boat, readying it for the run in.
A Double Duck makes landfall.

Duck Recovery

Duck Recovery Operations vary, depending on the vehicle being used to recover the boat(s) and/or swimmers.  And it's a place where the SF mantra of "That's wild, and undoubtedly quite dangerous, but we can do it," becomes something more like: "You've gotta be kidding me!"

I've spoken to SCUBA team guys who waxed long about the exciting experience of having a submarine surface with the conning tower just astern of the long ropes holding the team's two Zodiacs together.  The sub kept moving slowly forward as it surfaced.  When the conning tower caught up to the ropes, it caught them, and the two boats were swept back over the rear deck area of the sub.  As the sub came farther out of the water, team members used paddles to keep the boats from being swept over the side, and were later able to step from their boats onto the (relatively) dry deck, deflate their boats, and go below.

I've never done that one, but I have driven a Zodiac into a helicopter several times, and been on board Zodiacs driven into helicopters several more times.

(At left is the photo of a model of a CH-47 Chinook.  Though it's a model, I think it gives you the best look at the overall bird.)





The secret here is that the CH-47 Chinook helicopter does NOT float . . . but it does sink slowly.

Special Operations puts this fact to use, by letting a Chinook "land" in a body of fairly flat, calm water.  This doesn't work very well in open ocean, but can be done in inland waterways, on lakes, or in coves, etc. where the waves don't get too tall.



The pilot puts his rear ramp down, when landing, and keeps the rotors running (there are two rotors, fore and aft: see photo).  This provides lift, increasing the helicopter's "float" time.  Meanwhile, the team on the Zodiac drives as fast as they can get that little rubber boat to go -- right up the ramp and into the back.  The chopper's got about six inches to a foot of water in it, by this time, so the boat has water to run across as it comes in.  Just before entering the ramp area (Remember: the ramp is down, and lying under the water starting about five or six feet back from the open rear of the chopper!) the coxswain cuts the engine as his assistant unlocks the engine, permitting them to hinge it up and forward, lifting the prop out of the water.  The boat continues to coast, but team members rapidly grab the wide nylon webbing of the troop seats that have been folded up against the interior sides of the helicopter.  Team members continue to grasp this netting -- hanging on for dear life! -- as the pilot lifts off, moving forward, and all that water spills out, running in a river right out the back of the open ramp.  As the water runs out, the boat settles.  Eventually, the ramp is brought up and locked closed, at which point the team can let go and stand up, getting out of the boat.

At this point, the Zodiac may be deflated and the troop seats may be lowered so team members can sit in them for the flight back to wherever they're going (usually an intermediate staging area, where they leave the CH-47 and board a large jet transport like a C-141 to make the long flight home).

In my experience, however, since this recovery operation usually comes at the end of a long, exhausting deployment, team members often opt to keep the boat inflated, then flop in,on and around it to fall deeply asleep until the chopper lands.  If the Crew Chief, Pilot or Load Master decide to deflate the boat, however: it gets deflated.  Anyone who complains is usually invited to walk or swim home.

Oh, one other thought: this is also usually done at night.  And the coxswain is usually equipped with goggles to help him deal with the sea spray kicked up by the Chinook.  Unfortunately, not only is it dark.  Not only is the chopper marked with dim chem lights.  But, also: those goggles are usually pitted and scarred to near un-usability.  Consequently, finding that chopper can be tough.

Once, in training, it took me so long, as coxswain, that when we finally got to the penultimate moment, my Team Sergeant suddenly lunged back at me, knocking me to the floor of the boat, just as we shot under the open ramp of the rising chopper, gallons of water dumping on us and swamping the boat.  The Chinook pilot had decided he either had to fly, or sink!  So he chose to fly, of course.  I hadn't been able to see through the dark night, sea spray and awful goggles.  The pilot came back, though, and we did it again -- successfully this time.

That's it for now.  See you in two weeks!
--Dixon

26 September 2014

Some Details: Fast-Rope vs. Rappel


David Dean's excellent blog post, which provided important details for those writing about Catholic characters, put me in mind of some other information you might find useful.  And, naturally, given my background, these details tend to be military in nature.  But, I see a lot of military techniques used in cop shows, and sometimes evidently by real police, these days.  So I thought you might have seen some of these techniques, too, and that this info might interest you -- as mystery writers.

There are many places where a helicopter can't land, but people need to get off the helicopter and onto the ground below.  Thick jungles or forests are such locations, but there are others you might not have considered.  Think of the roofs of high-rise office buildings: they are often festooned with antennae that prevent a helicopter from landing.  Yet, a helicopter -- if properly equipped -- can put people onto that roof, or take them off.

When helicopters can't touch down, but need to offload personnel, two options are fast-roping and rappelling.  Fast-roping is faster than rappelling, but I've seen fictional law enforcement units using both methods on TV and in movies, so I'll cover both here.

FAST  ROPE OPERATION
Note the number of men sliding down each rope
at the same time. UH-60 Helicopter.
HELICOPTER  RAPPEL OPERATION
Note that there is only man per rope
at any given time.  UH-60 Helicopter.
Viewed from a distance, Rappelling and Fast-Roping from helicopters can look very similar.

In both cases, people slide down ropes that hang out of helicopters.

But the person rappelling is usually attached to the rope by a D-ring or snap-link, while a fast-roper is only attached by hands and feet.






A coiled Fast-Rope:  The eye-splice at
photo bottom is used to tie-into the aircraft.  
The ropes used by these two operations are quite different -- because they serve very different needs.

("Fast-Rope" can evidently be spelled with or without a hyphen, and even sometimes as a single word.)  A fast-rope, itself, is a thick hawser-type rope about 1.5 to 2 inches thick.  The ropes are pretty long -- 35 feet and 40 feet, I seem to recall.  With a few that were about 60 or 70 feet.  The number "78 feet" sticks in my mind as the greatest distance one can safely fast-rope -- though I may be wrong.

The rope needs to be thick, because the fast-roper needs something to hang onto.  As I mentioned above, the fast-roper isn't tied or snapped to the rope.  Instead, s/he gets down from the helicopter to the ground by grabbing the rope in gloved hands, and between boots, then sliding down the rope as if it's a firehouse pole.

Fast-roping uses a thick rope that the roper slides down,
similar to sliding down a firehouse pole.


Fast-roping is a quick way to empty a helicopter that can't land, because several people can slide down each rope at the same time.  Hence the name "Fast-Rope": a rope used to empty a chopper fast.










These fast-ropers are much better spaced (closer)
than the folks in the upper left pic.  Going out closer
means you get more folks on the ground faster.
On my old A-Team, we usually rode UH-60 or MH-60 Blackhawks (seen above) when we fast-roped, and would use two ropes to exit the aircraft: one per door.  As we neared the objective, helicopter crewmen would prepare to deploy the fast-ropes, while we gathered in two groups, one around each rope, where it hooked to the chopper.

Everybody would grab the rope, in a specified well-rehearsed order -- the top of each man's hands touching the bottom of the hands of the man holding the rope above him -- ensuring no one's hands overlapped anyone else's.

When we hit the objective, the crewman dropped the rope coil out the door and leaned out to be sure the far end was dragging on the ground as the chopper moved slowly forward.

Simultaneously, our "doorman" would do the same thing with a quick glance (to ensure he didn't slide down the rope, only to plunge off the end.)  Then he would swing out and jump his feet onto the rope, sliding down.

As the doorman went out, the man beside him rotated around and dropped down the rope, followed by the next guy, and the next.  In this manner all twelve of us could descend the two fast-ropes, with our equipment, and be "weapons-up" in a matter of seconds.  Due to the chopper's forward movement, we'd hit the ground about 2 or 3 meters apart.

The ticket with a fast-rope is that the friction generated between your gloved hands, and your boots, on the rope, slows you down enough that you don't get killed or injured by the drop.  And that's A LOT of friction!  I saw a buddy of mine, who tried to fast-rope without gloves one time.  His palms and fingers looked like hamburger: horrifically blistered, torn and bleeding.  He had to wear serious bandages for about two weeks.  (To his credit, he fast-roped, wearing the bandages under his gloves, during those two weeks -- because it was VERY important.  But it hurt him like heck, every time!)

On the web, I've seen photos posted by knuckleheads who prided themselves on letting go of the rope as they descended, only to grab it again later, to slow their descent.  However, I strongly urge you not to let any fictional law enforcement personnel practice this foolish "showboating" in a story.

The fact is: the folks in those online pics are just Good-Time Charlies; they aren't carrying any equipment.  If they had been, and they'd let go of the rope -- even for just a moment -- they'd have been toast.

If you look closely, you'll see that the folks in the pics in this post aren't carrying any equipment either. Clearly, these are training photos, though I never did any fast-rope training in which I didn't wear at least my load-bearing equipment and weapons.

When I did this work, the U.S. Army did not officially permit anyone to fast-rope while carrying more than 35 lbs. of equipment.  However, 35 lbs. was just about the low-end weight of our load-bearing equipment, weapons and basic combat ammo load in SF.  When we added rucks, we could fast-rope with up to 50 or 60 lbs., but that really is about the top-end limit for safety.

I can think of a specific instance when 7th SF Group had us practice fast-roping with heavier loads, such as 75 or 80 lbs., and even more.  They did this for very good reasons, hoping we could find a way to fast-rope with heavier loads, by doing a good PLF (Parachute Landing Fall) when we hit the ground, to minimize the impact.  That much weight, however, resulted in quite a few injuries, which was how we came up with the 50 or 60 lbs. total equipment weight limit.  And, the fast-roper carrying that much, had better do a good PLF on impact with the ground.

The sad fact is:  You can parachute while wearing a 110 lbs. rucksack (I've done it -- A LOT.  It hurts, but it works.  Trust me.), but you can't fast-rope with more than 50 or 60 pounds of gear strapped to your body.  Well . . . you can, if you want . . . but the odds that you'll be in fighting shape after hitting the ground are pitifully low.
Common rappelling ropes.


Which brings us to Rappelling.









This guy has his brake hand on (right hand).
He's waiting for permission to go.
This person is in mid-rappel.
Rappelling is probably more familiar to you than fast-roping.  Even if you haven't practiced it, you've seen it in countless mountain climbing or adventure films, such as The Eiger Sanction.  Both fellows in these two photos are practicing standard repelling: off a wall (left) and out of a helicopter (right).

High-speed "Swiss Seat"
or "Harness"

In both cases, they're wearing very nice high-speed "Swiss seats" or "Harnesses" similar to the one seen to the left.  The "rappeller" hooks a snap-link to the D-ring on his seat, and runs the rope through the snap-link so that it wraps around it but can still slide through.  In some cases, s/he may run the rope through the D-ring, itself, though this isn't necessarily recommended.

Though this type of harness is nice, it's not necessary for rappelling.  Frankly, I always had to use a rope "Swiss seat" similar to the one in the drawing on the right.

To create this Swiss seat, you take a rope about five or six feet long, hold the center at your waistline below your navel and wrap the ends around your back to bring the ropes front again.  Then, you wrap the ends once around the rope, just forward of your thighs, and tuck the ends under the rope, bringing the running ends down between your legs and running them back up across the rump cheeks to come back up between your body and the rope around your back.

Now, squat down while you pull up on the two ends of the rope, tightening everything you just did.  (Men must take particular care at this point, to ensure the ropes do not cross each other, or the crotch area!)  Once your seat is tight, stand, while holding the ropes good and tight, then tie the ends together in a square knot (see pic).  The drawing shows the square knot tied below the navel, however I was taught to tie it off on my "off-hand" side.  (i.e.: Since I'm right handed, and hold my rappel line with my right hand as "brake hand," this brings the rappel line around my right side.  Thus, I "tie-off" my Swiss seat -- with the square knot -- on my left, to keep it out of the way of the rappel line when I'm rappelling.)

It's also possible to do a "Body Rappel" by passing the main rappelling line under one thigh and across the body and back, but I don't want to get into that because:

  • It's too easy to describe it in a way that might put a practitioner in danger.
  • Frankly, I find it quite uncomfortable, and would only employ the body rappel in an emergency.
  • To get a look at roughly how it's done (for story-writing purposes) you're probably better off watching the 1986 horror movie House, in which the main character uses a body rappel method at one point, and you can see how it might work.

Some readers may have seen rappelling, but might not completely understand how it works.  So let's discuss it a moment.

Take a look at that the pic of the guy rappelling off the wall again (right).  His left hand, on the rope in front of his body, is his "guide hand." The guide hand doesn't really grasp the rope; it just lets the rope run through it, in order to guide the manner in which it enters the snap-link or D-ring.  This hand has little to no impact on the speed of descent.

His right hand, which is thrown out away from his body, is his "brake hand."  In this photo, he's in mid-drop: the rope is running freely through both his hands.  He bounded out from the wall when he threw off his brake hand, which is why his feet aren't touching the wall.  He's currently falling down the rope.

In this photo (left) you can see how the rappeller is completely suspended by the rope pulling up on his snap link.  Note the trailing rope that wraps around the right side of his body (left side of photo), and that his right hand is behind his back.

This guy has stopped, or slowed, his descent by moving his brake hand tightly up to the small of his back.  This action causes the friction of the rope around his waist, and the rope trapped against his back by his tightly grasped right hand, to overcome the inertia of his fall, slowing or completely stopping his descent.

When going down a wall, a person can walk, but more commonly they "bound" -- jumping out from the wall as they release their brake hands, zipping down the line, then moving the brake hand to the small of the back and swinging up the feet to meet the wall when they want to stop.

The person in the foreground (pic on right) is the "belay man." His (or her) job is to watch the person rappelling, and stop their fall if that person seems to suddenly lose control.  Belaying is accomplished by grabbing the rope in two gloved hands and running backward to put tension on it.  This tension binds up the rope, where it passes through the snap-link and around the body, and thus breaks the fall.

Rappelling off a wall is just like rappelling out of a helicopter except:
  1. There is no wall to push off of.
  2. Helicopter rotor wash -- the wind of the rotors pushing down -- will push the rappeller more quickly down the rope, making it harder to stop.
In either case, once the person rappelling hits the ground, s/he must run backward until the rope comes completely out of the snap link (or simply open the snap link and pull out the rope!) in order to get off the rope.  

Now, recall that "Belay Man"?  The reason you can't easily send more than one person down a rappelling rope at once, is that the weight of the person rappelling below would act as a belay, stopping or majorly hindering anyone trying to follow.  This is one major reason why fast-roping is faster than rappelling, when it comes to emptying choppers.


There are other types of rappelling.

The person on the left is performing an "Australian Rappel."  In this case, instead of creating a Swiss seat, that five or six foot section of rope is simply wrapped twice about the waist, and the snap link is attached in the center of the small of the back.

This person is using his right hand as brake hand, and he's got it raised as if about to put on the brakes.  You brake, in an "Aussie" by raising your brake hand tightly to your chest.



On the right, is a person practicing the Australian Rappel on the "free side" of the wall, where there is no wall beneath the platform you jump off of.  This is how you practice performing an Aussie from a chopper, when no helicopters are available for training.

As you can see, he's just jumped off the wall, brake hand held out to zip down the line until he decides to brake his plummet.


Note, from the photos above, that the Australian leaves the rappeller with a free hand that's not doing anything.

In this photo on the left, of South Korean police in action, you see that these guys are using the Aussie to bound/run down the wall of this high-rise, while holding weapons at the ready.  The Aussie also permits them to look where they're going, so they can engage any bad guys who poke their heads out, if needed.  The shield held by the man on the right side of the photo tells me this is probably a breaching team.  They plan to breach a window or door below, in order to enter the building from an unexpected direction -- preferably directly into the room occupied by the bad guys.








Rappelling can put good guys where the bad guys don't expect them to show up!I hope you found this useful.

I hope you found this useful.

See you in two weeks!
--Dixon

15 August 2014

Break in Contact



Because of a shift in the blogging schedule, I took a blog vacation for a couple of weeks.  I neither read nor commented, and I hope no one minds. It was a good time for it, because my son started back into school (a new one) last Wednesday, my mother-in-law came for a visit (I like her quite a lot, so that's not the problem some might think it to be), and my older son's motor scooter broke down at the same time my jeep went on the blink.  Consequently, I've spent quite a bit of time acting the part of family chauffeur, lately, driving my wife, daughter and son back and forth to work at different times of the day (and sometimes pretty late at night).

I don't mind all the driving.  In fact, I've always enjoyed driving.  One of my favorite activities during my army days was driving trucks, sometimes with trailers, under difficult conditions.  I feel (and others have commented) that I handle a "deuce-n-a-half" in the field, the way other people handle a sports car on a slalom. A "deuce" is  a 2.5-ton army truck, for those who don't know, which means it can carry 5 tons of load when driving on standard paved roads, or half that load when driving cross-country.  And, a "deuce" excels at running cross-country.

In fact, you can even plow down small trees with one if you have to.

I know; I have.  When I had to.

No, all that driving hasn't bothered me.  And neither has the extra time spent with individual members of my family.  Driving my wife, or one of the kids to or from work is one of the few times I get the chance to speak with them alone, without others wanting my attention.  And that's nice.  It provides an opportunity to discuss personal things, to engage in conversations that might otherwise be difficult to hold.  And, my son's girlfriend sometimes tags along, and she's an English major studying creative writing at Arizona State, so we have fun conversations about writing.

I like the driving. I like the extra time with family. But I find it difficult to set and maintain any sort of schedule when my own schedule is driven by several other people's schedules. My wife is no problem: she goes in around eight in the morning, and I pick her up at five. My younger son is no problem either: he rides his bike to school in the morning, and I supervise his homework when he gets home in the afternoon. My older kids, however, both work part-time jobs that start and end at odd hours.  And they work rotating shifts, which means their schedules vary greatly from day to day -- sometimes even changing during the day.

All this mish-mash of schedules has me considering a very special problem.  One that's all my own.

The Fragility of Writing

I don't know if you have this problem.  I'm sure that some writers don't suffer from it, while others probably do.  I envy the former, and commiserate with the latter, because I find writing a very fragile thing.

Seems to me, there are different types of fragility, of course, just as there are different ways of interpreting the word 'fragile.'

My father-in-law, for instance, a retired postal worker, has been known to comment: "Ah!  There it is again, that word fruh-gee-lee.  I think that's an Italian word, means: Throw this hard at the wall and see if it sticks!"

I did mention that he's a retired postal worker, right?

While I don't know if it's true, I've heard that diamonds are difficult to scratch, but can shatter quite easily if smashed by a heavy solid object.  Something to do with their structure, evidently.

Other materials, such as steel, may have great tensile strength (essentially meaning they're hard to bend), but relatively poor compression strength (not standing up so well when smooshed).

For me, story writing has a very special sense of fragility.

Whenever I read about a writer who works as a successful  lawyer or doctor, is deeply involved in raising ten kids, plays semi-pro volleyball or something as a hobby--yet, has still managed to publish six thousand books and two gazillion short stories in multiple genres--I figure the following:

(A) This is someone with excellent time-management skills.

(B) This is not someone who finds story writing as fragile as I do.

I believe I've mentioned before, on this blog, that if I had my wish, I'd write behind locked doors with red and green lights above them.
I'd control which light was on with a switch: green if I'm not busy, red if I'm writing and need to be left alone.  Maybe I'd add an amber light for when I'm ruminating, casting around for a good idea or something that catches my fancy, ready to hit the red light when something gelled.  I'd stay locked-up with that red light on for as long as it took to complete a single work -- days, weeks, even months -- ordering out for food, cigars, soda, etc., and only coming up for air when the job was finished.

This isn't because I detest my fellow man, or don't like spending time with my family.  It's because one of the ways I find writing most fragile is through what I call "break in contact."  I might be chugging along, writing great stuff, knowing just where the train is headed--and if I'm left alone, I'll get there--but, if my work is interrupted, that break in contact, a time when I'm not engaged with the story, causes problems.

When I sit down to start back in, I often find I've forgotten key transitions that I'd already worked-out in my mind, as well as phrases that seemed perfect for upcoming spots.  Sometimes simply a key word goes AWOL in my absence, evading all my attempts to recall and employ it after my return, occasionally never resurfacing.  (This is most galling when I only recall the word while reading the final copy of the story, once it's been printed in a magazine, and I find myself lamenting: "Arg!  That other word would have been so much better there!")

I've tried writing notes to myself, or even outlines, so that I'll remember this stuff when I get back to my desk.  But I find this brings me up against another aspect of writing's fragile nature.

I once knew a writer who warned me not to ever "talk out" a story.  She claimed that if I got a story
© Marie-Lan Nguyen / Wikimedia Commons / CC-BY 2.5
out of my head, before I got it down on paper (or into a computer, these days), I'd lose the inner drive, the need, to get it out again.  I think the idea here is roughly akin to letting the steam out of the boiler on a steam engine.  You might get up a good head of steam, but if you let it all escape through a stop-cock, there's nothing left to drive the engines.

I've found that if I outline a story, every important transition or phrase that I jot down opens a little stop-cock, letting off some of the pressure in my head.  It doesn't take many open stop-cocks -- particularly if they're open for awhile -- to make me lose what I need.  It's as if the motive force, driving my writing, just evaporates.

This is one reason why I often write late at night, or in the dark hours of the morning.  No one is around to interrupt me after they've all gone to bed, and -- after sometimes driving my daughter to work at 3:45 a.m. (she has to be there at 4:00), I have a couple hours to write before folks start getting up.

Except for our cats, of course, who -- for some reason -- seem to insist on being fed!  Then they want to come out on the balcony with me, so they can hang out on the window ledges and watch birds flit through the trees.  I try not to let this bother me.

I'm interested in hearing if any of you find your writing work to be somewhat fragile in nature, and what you do to address this problem.

See you in two weeks!
--Dixon

11 July 2014

Have You Seen This Book?


PBY Catalina
I once read a wonderful non-fiction book about a man who flew early seaplanes -- including the PBYCatalina . Though, due to his nationality, I believe he called it a Canso in his book.

He didn't start out in a PBY, however. Suffering from malaise brought on by his experience as a pilot (fighter pilot, I think) in WWI, he bought a small second-hand seaplane. He also purchased a tent, packing it and his few belongings into this fragile, floating biplane built of canvas stretched across a light wood frame. I suspect the plane may have looked a bit like the one of those below.



This work was autobiographical, you see, and the man who wrote it lived in Australia or New Zealand. I’m not sure he was originally FROM that down-under portion of the world; he may have been born and raised in England, or one of the other Commonwealth countries. I’m afraid I just don’t remember. I read the book too long ago. But, I know he knocked-around there after the war.

He and his dog spent a few years flying that tiny, wood and fabric seaplane from secluded inlet to unoccupied small bay, around Australia or New Zealand, sometimes venturing to a deserted island or two. They’d fly in, and he’d anchor the plane off an empty beach, fishing for food, camping on the coastline, playing with his dog, staying for a day, a few days, maybe a week or two before moving on.
He rigged a rod on a spring, which he dropped down to hang vertically from the side of the fuselage when landing at night. He called this “my fishing pole,” and used it to gauge his altitude above the waves when landing during low vision conditions—not a stupid guy. When he needed fuel or foodstuffs he couldn’t scavenge, he’d land in a harbor and find work to supply the funds he needed to keep going.

His was a happy vagabond’s lifestyle during that time, chosen in order to escape the bonds of gravity, freeing him from the earth and worldly cares. An antidote to civilization, we might say. Though, to him—and I don’t believe he ever states this outright—I think it proved an antidote to the mechanized mayhem he’d witnessed on the battlefields of Europe. A sort of mental pressure relief valve, perhaps. He took the one, really good thing he’d gotten from the war: his knowledge of aviation. And he used it to erect a gateway to the rest of his life.

He and his dog bummed around the world down under, until he was approached by a fellow looking to build a new airline there. Then, he began flying for pay, charting flyways across the continent and to local islands, with his boss, later flying passengers and freight along the routes they’d laid down.

As I mentioned, I read the book several years ago. But, if memory serves me right, that airline job didn’t last too long, before he was tapped to fly anthropologists, geologists, geographers and other explorers among the islands of the south Pacific. His flying and navigational knowledge soon led to
his being asked to staff aircrews trying to set new distance records, or connect spots on the globe by air for the first time. I believe he even helped scout and establish the routes Pan American would use for their trans-Pacific flying boat service.

In truth: His writings came as an unexpected, and extremely pleasant surprise to me: an aviation book, written by an aviator, filled with technical information presented in an exciting manner, because this technical data was all part and parcel with the decades of flying adventures described in his narrative.

Over time, he found himself at the controls of larger, more expensive and more powerful flying boats, capable of covering much longer distance between refueling. I think he even wound up flying several of the early PBY models during this time, such as the aircraft in the photo on the left.

He worked with others, setting distance records, or making first-time flights between remote, tiny specs of land dotted among the vast enormity of the indifferent Pacific Ocean. An ocean known for devouring even the bones of many adventurers, swallowing them whole into its mysterious depths, leaving only a question mark to float through history. His was not a boring life.

When WWII came along, he volunteered for the air corps, and was stationed in Nova Scotia, or
Iceland, or somewhere like that, flying PBY’s on search and rescue and anti-submarine patrols. After the war, he returned to the south Pacific, helping to set records by flying between South America and Pitcairn Island and Australia—places like that at least. I no longer remember most of the details.

I recall, however, that at one point, while crewing a PBY on a distance record flight over the ocean, they suddenly ran into a problem. They couldn’t transfer oil from one engine to the other, and one of their engines needed more oil, or it would soon burn out. He pulled the short straw, and thus—in mid-flight!—had to climb out onto one of the angular struts holding the wing up. 
This photo shows the angular wing struts on the PBY pretty well.

There, he tapped that engine’s oil pan and filled a can with oil. Then he struggled back inside the fuselage, clambering back out on the other side to partially fill the other engine’s empty oil pan. This process had to be repeated several times, during the flight.

Can I vouch for the veracity of such an occurrence? How could I? I have no idea if such a thing would be possible. The way he wrote it, however, I could feel his sheer terror while out on that wing strut, frigid wind whipping his hair and clothing, making his eyes water, the vast unforgiving Pacific yawning far below his tightly grasping feet and hands as the wind whipped the oil everywhere, turning the strut slick between his fingers. Yet, he presented the information almost as if saying: “Well, you know, that’s the sort of thing you had to do back then. It was just a job.” In sum, I wound up believing his story completely. I don’t doubt it at all—impossible as it may sound.

I learned a lot from this book.

I learned that the way to look for an island in all that empty ocean, was not search for the invisibly small speck of land, but to look for the clouds that always rose up over land in the middle of the sea. These clouds were the flag that spoke of the islands below, and a good pilot listened with his eyes to what they told him.

So too, he knew the proper sound and feel of his aircraft, the way I know the sound and feel of my wife’s car or my jeep. When something went wrong, he could hear it, feel it through the controls, as if the plane were a living thing in his hands. He spoke of the gauges, and what they meant—usually when describing what he suspected had gone wrong with the plane, nearly always when they couldn’t land.



I learned that seaplanes, flying boats, can’t land on the open ocean. Not really. Not without running a high risk of coming to grief. The swells of the open sea are just too much for a seaplane to take, on landing. Instead, landing requires a bay or inlet, some stretch of water protected from such high seas, so the surface is calmer, flatter, smoother, giving the aircraft a much better chance of staying in one piece during the touch-down impact.

As I say, this book taught me a lot. But, much of it has fallen out of my memory over the years. And, now, I find I need this technical information he shared.

Unfortunately, I can’t find the book! The library I checked it out of, says it was almost never borrowed (a truly sad fact imho—It’s a glorious read!), so they sold it for probably around 50-cents. 

I’ve Googled and searched and tried library sites. But, I don’t know the title or author. I’ve even tried looking up the names of men who crewed aircraft on record-breaking runs in the south Pacific—all to no avail.

So, if you, or someone you know, happens to recognize the book I’ve described, and you can give me any info that would help me find it again, I’d really appreciate it.

You can just place the information in the comments section. I’ll have my notification button turned on.  So, even if you’ve stumbled across this post years after I’ve put it here, please leave me any info you have: I’ll get an email notification that you’ve posted here.

Thanks! And, I hope the rest of you have gotten some little something out of this post.

See you in two weeks,
--Dixon