Rambos Locker Ocean Sports Video Blog

This is just one of the few Vaka Eiva Teaser Video shorts of the soon to be released, 2008 Vaka Eiva Outrigger Paddling Festival DVD. The DVD contains OC6 iron and changeover races as well as OC1, Boiler swim, Fun events, Sprints, cultural and canoe carving segments. This truly is the most fun event on Planet Outrigger. Be a part of it in 2009 www.vakaeiva.com

More teasers coming ..... all shot in Hi Def for your viewing pleasure.

Enjoy
Rambo

This is from the DVD of the race that i shot entirely with unmanned Gopro cameras with delay timers. The footage follows the race of 3 of the top crews …. NorthCliffe Open (the eventual winner) ……… Outrigger Australia Open (2nd) ………….. and Mooloolaba Masters (1st Masters, 5th overall) who i paddled with.

Many changeovers are featured and techniques of the great steerers.

You will probably recognise some of the names like Danny Sheard, Pete Dorries, Travis Grant, Mike Mills -Thom etc. who have all competed and won either open or masters at the Molo Hoe.

A larger and better quality version will be upload later, this one up now is 20 mins long and a 60mb download. The video is highly compressed to limit download size. The original is HQ.

Hope you enjoy it.
Cheers Rambo

I was to fit a "GoPro Wide Angle" to a new Aussie Tahitian Va'a at a race on the weekend, but Travis Grant paddled his Hurricane instead, too rough for a Va'a, + it has no bulkheads yet, so it fills up with water. Had the wide angle level with the rear Iako on his Hurricane directly behind him. That is less than a meter away from his back and you could swear it was mounted at the rudder, it's that wide. He and Danny Sheard had a humdinger downwind battle, neither getting away from the other till the very end. Danny was in the picture the whole time. Only problem, with the huge lens, sunlight caused the inside to fog up after 15 mins on both Cams, so need additional anti fogging, plus it was extremely humid that day. No shit, these are the way to go if i can sort out a few little problems.

The Hamo Cup 42km DVD will Premier at Vaka Eiva on the big screen at "Jacks" ( if Victoria will let me) it's frigging awesome, be a classic.

Heaps to do before i fly out fly out Thurs to fulfill my commitment to film Vaka Eiva, including finishing the underwater housing for the new 1080i Hi Def Cam, this thing will blow your mind, the pics are stunning on my HD TV, as good as the HD channel on TV, now i'm broke again. :cry:

I will put the footage of Travis up when i return from Vaka Eiva. Also I have a new filming Gig in Western Australia shooting Multiple OC1 World Champion Karel Tresnak Jnr in Dean Gardiner's Perth World Cup. Karel has given me permission the put Go Pros on his Zephyr OC1 and i will be filming him from my own (Colin Bartley's - Outrigger Connection Aussie Distributor) media boat in Hi Def, this will be very interesting footage.

Heaps of other stuff happening more later ...........

Cheers Rambo

I have started a GoPro User Forum for people interested in getting the most out of their Cameras. All the topics are covered..

Questions, Problems and Observations
Tips, Tricks and DIY Customizations
Trade, Exchange and best deals
Video Showcase - Your Videos
Editing and Software - Tips

Etc ....

Swing on over and join up and get some great info
http://goprouser.freeforums.org

Cheers Rambo

Two News letters to download on the lead up to Vaka Eiva

Just click on the links to download ...

Newsletter #1 http://www.box.net/shared/fkcl64ild4
Newsletter #2 http://www.box.net/shared/n4lyn485jj

Grab the Popcorn and Coke, sit back and let "RowdyHeadCam" bring you a unique perspective of the Hamilton Island 2008 Oc1/Oc2 Round Island race. Live mid race interviews from a Surf Ski with some of Australia's top male paddlers, the likes of Pete Dorries, Travis Grant, Lats and Rob Pommie.

Playback Tip - if you have a slow broadband connection start the video then pause it till it downloads to your PC, then it will play uninterrupted. As usual, Sound up LOUD

Episode 2 coming online soon and the complete Series will be available in HQ DVD for your future viewing pleasure.

I know quite a few people have shown interest in Va'a Racing, like Greg Long, Kevy Long, Mark Kennedy, Rowdy etc.

A Va'a plug is actually already in Australia awaiting molding, so things are farther down the track than what one might realize. The NZ surfrigger has been around for a while, we have a few up here at Mooloolaba, but they are some what different to the Tahitian Va'a and lot's of Kiwis love the Tahitian designs.

Another informative video this time of the making of a Va'a

This is the best rudderless surfing video i have ever seen, check out the skills of these guys. The video is actually footage from this years Super Aito

There is so much more to learn than just thrashing away with a paddle and pressing on foot peddles to steer as we currently do on ruddered canoes. The way they use their body, their paddle and the ocean is to me like "Equestrian" on the Ocean.

I'd like to propose we start a movement towards manufacturing and racing Va'a here in Australia, not just sprints but ocean racing as seen in the video. The skills learnt would be incredibly valuable for steerers in OC6 and create a whole new interest for OC1 paddlers looking for a challenge.

I want one.

Rambo pumps the adrenaline on a Mission for warp speed and the Ocean provides the ride.

Probably my best video to date, hope you enjoy.
Apart from the excellent downwind run, this video highlights what is possible with the Go Pro Hero3 Camera and a little (2 days) editing. If you want a 150mg HQ mp4 copy download here http://blip.tv/file/get/Rambooc1-MissionAdrenal383.mp4

Leave a comment if you like, helps make the insanity of making video's a little more enjoyable.
Cheers Rambo

Hey guys, bailing is a skill and another reason why we should be proud our sport is so different from others. The Top Crews will make a move when they see another crew bail, it can make or break a race and it’s all part of racing smart.

I remember in 1995 National Titles @ Rockhampton, Mooloolaba Masters started the race with no covers (as did lot’s of crews but not all) and just after the start the weather changed and i had to bail continuously from seat 5 for the entire 16k race. I could never get all the water out, but managed to keep the canoe high enough to maintain our lead in the race, dispite constant swamping. That was until 200 metres from the finish line when we took a huge swamping and sunk the canoe up to the gunnel’s. At that point every everyone had stopped paddling and had given up and i was so pissed at having bailed all that way i screamed at the crew to just paddle submarine style to try and make it to the finish line, as we had a sizable lead over 2nd and 3rd canoe. With the encouragement of most of the crowd on the beach we paddled underwater like crazy and passed over the line and won by half a boat length and an excited Ronnie Grabbe through his paddle so high in the air, i don’t think it ever came down.

It was one of the sweetest wins you could ever have and was a big part of what built the Mooloolaba Masters into the crew it is today and still gets talked about when the grog flows at the bar.

This was the crew - Rambo, Ronnie Grabbe, Pete Tremain, Adrian Blandford, Neil Campbell, Greg Anderson.

Bailing is a big part of our OC6 sport and history and we should embrace it and become skillful at it, not find ways to bastardize it.

BTW - My excuse for a poor “Shaka” in the photo is, i could barely lift my arms above my shoulders from all that bailing. Did OK at the bar that night though.

Learn to bail !!!!
Cheers Rambo

This was posted on Ausoutrigger forum and i thought it was worth of being recorded in the Locker.

Jeff ask's - Greetings,
Had a fun day on the water on my OC-2 with a friend who I am trying to woo over to OC from the world of dragon boat. I mentioned to him to keep his weight in the center of the boat but wow he really leans into his stroke. We had a great day and of course hulied when he was on the right.

Now I know it was my responsibility to protect the ama all day with this paddler, but just curious with the experience of the OC-2 crews in this community who is in charge of balancing the ama in the OC-2 given both are OC paddlers? I am assuming it is the right side paddler that fine tunes it with the left sided paddler keeping weight over the center. I'd welcome any insight on this.
Aloha,
Jeff

Follow up replies - Jeff, Paddle together more often and you two will click. The next person you partner will be different again.

OC6 paddlers who don't paddle OC1 or OC2 are very unstable when they first get onto an OC2, even experienced paddlers. They no longer have the canoe sides to brace against like in OC6 and need time in the two man to adapt to this. For this reason their timing is usually way out to.

I took a fellow club member out with me some time back, this paddler is a multiple OC6 Hamo and Nat winning paddler, but never paddled OC1 or OC2 before, still doesn't. We hulied 3 times and i could not focus on my own paddling it was that horrible. So what you experienced is normal.

Eventually, if you keep paddling with this person, a blend will develop and you will react to the OC2's movements instinctively.

It's not about who "keeps" the Ama, you should both just try to sit central, be balanced and move your center of gravity to maintain equilibrium.

Some combinations click straight away, usually two one man paddlers of similar ability.

Cheers Rambo

And Further - The Ama on a canoe does the job it was designed to do very well, generally it does not require input from us. So, as a paddler we should concentrate on paddling as if we don't have an Ama. If you set your canoe up correctly and paddle upright, the Ama should ride light and any time you sense a need to protect it, say if a swell is approaching on the Ama rear quarter, it should be done with a paddle stroke to compress it or a sight roll of the hips to counter the lift (not a lean) Taking a forward stroke is the preferred option, as this is contributing to the forward propulsion of the canoe, anything else just causes drag.

One of the reasons people get sore left ass is because they over protect the Ama, paddle your main hull as if it were your primary source of stability and relegate the Ama to secondary and you will be heaps faster.

Cheers Rambo

Ella wrote - Must learn this!! And that whole bracing right concept!!



Follow up reply - The bracing right concept is nothing more than taking a normal forward stroke on the right. As you press the paddle down at the catch your weight is transferred to your left butt cheek compressing the Ama usually enough to counter any lift. Sometimes you have to break your rhythm and accelerate your return stroke at the opportune time to make the brace stroke effective, but that is part of reading the ocean and using it's power, not fighting against it.

Flying the Ama and bracing passively on the right for balance is a completely different skill, in this case you induce the Ama to lift in order to reduce drag and allow the canoe to track using only the main hull. The brace drag can also be used to slow the canoe down to keep it on the crest of the wave until you decide the time is right to take the drop and link up some swells. Timing when to go and when to hold is critical to successful canoe surfing.

Cheers Rambo

Check out the leg drive and power generated by this young man (won the Open and Under 19 World Sprints)

Watch how his entire body weight is placed on the huge paddle and the way he scoots the Va'a forward almost like a C1 kneeling style, incredible glide after the power stroke.

His position on the seat as he slides, moves almost the length of his stroke. Not something you could do for an extended period of time, but awesome just the same.

Peggie goes under and Thor rides high in a short clip from an Epic OC1 surf session.

Yep, Surfski and Oc1 "all in one"

Comes with a foam seat insert to lift the paddler into an Oc paddling position.

If Lisa Curry -Kenny and Rambo shed a tear over a 5 minute video then you need to watch it. This hits home like nothing else.

The first picture is obviously the remote control version. The transmitter has a range of 1km LOS and the four buttons have the following functions.

A - Powers Up/Down the GoPro and steps through menu.

B - Record On/Off and sets menu choices.

C & D do the same as A & B but on a different channel, that way I can control 2 GoPros independently or as many Cams as I want on each channel from just the 1 transmitter.

The second picture is the delay timers Type 1 and 2.

Type 1 will turn on the GoPro and activate record 5 seconds later.

Type 2 will turn on record only but it has AA Batteries in the box instead of AAA so will last 5 hours plus.

Both can be delay set from 1 min and up to 5 hours.

All totally waterproof and can take some rugged treatment.

There are 6 R/C type and 3 each of the delay timer Types.

Also some new mounts

Roll on Hamo …. Haahaaa.

Leg drive is really not what actually happens in an OC1. Yes legs do appear to pump, as in the Paradise video, but that is to allow the hips to rotate to gain further reach. Unlike the Surf Ski/ Kayak stroke which sweeps out to the side and tilts the ski/kayak from side to side, the Oc stroke is straight down the center-line of the hull. The legs are just a part of the connection that starts from heel, continues to circle the body and ends at the blade anchored in the water. The legs pump in response to the twisting of the hips.

Some OC paddlers appear not to pump at all, this i believe is fine as mostly they are larger body types and the torque transfer is primarily through their butt on the seat connection.

Lot’s of top paddlers paddle with their butt very close too their feet, which gives them the high knee look, so obviously there is not a lot of leg drive going on there, just a different style of torque transfer and it works for them. Personally, i cannot paddle this way as I’m too unstable and my learnt style requires that i have hip rotation.

No matter what style you adapt, the most important thing is still getting efficient transfer of power from the paddle to the hull resulting in maximum FORWARD movement.

Chuck in a few bumps, side current and wind and you have a whole new ball game.

A Case Study - Danny Ching on OC1 compared to a Kayaker

In this video of Danny Ching, his leg drive appears to be restricted in an OC1 compared to a kayak. As you can see from this short video of him … there is slight leg movement but no leg drive that i can see, that is not to say that he could be pushing on the heel to lock the knee

Also i have split the screen with a cut a way kayak showing what leg drive is, you can clearly see the difference in foot to butt level, which then allows more rotation.

The Time Course of Training Adaptations
from the MIPP Archive
Introduction
So far, I have exposed you to some basic physiological variables that are known to 1) bear a strong relationship on endurance performance in every sport and 2) respond to training. By now, I hope you can recite with me the "Big Three" elements of endurance performance:
1. Maximal Oxygen Consumption
2. Lactate Threshold (also called Onset of Blood Lactate Accumulation)
3. Efficiency

Number 1.
is an oxygen delivery issue. A high maximal capacity for blood delivery means higher oxygen delivery and the potential for more muscle to be active simultaneously during exercise. VO2 is primarily limited by the maximum pumping capacity of the heart, and the specific arterial development to the active muscles.

Number 2
is an oxygen utilization issue. The greater the intensity of work we can achieve prior to the point when we begin to accumulate the inhibiting acidity of lactic acid, the faster sustained pace we can tolerate. The limiting adaptations are the capillary density, fatty acid breakdown enzyme level and mitochondrial density in the specific skeletal muscles used in your sport. Combining elements 1 and 2 gives us the sustainable power output of your "performance engine".

Number 3
Efficiency, links sustainable power to performance velocity. The better the efficiency, the greater the achieved velocity at a given level of energy output. Since, ultimately, we have a limited "engine" size, improvements in efficiency are critical to additional improvements in performance time.
In this article I want to discuss the time-course of change in these variables. "How long does it take for my max VO2to peak out?" "What about lactate threshold?" Understanding the answers to these questions will be important as we try to build appropriate training programs.

The First Wave of Change - Increased Maximal Oxygen Consumption

In a previously untrained person, VO2 max is increased significantly after only one week of training! The reason for this early improvement appears to be an increase in blood volume, which results in improved maximal stroke volume. As training continues, VO2max continues to increase, for several months, albeit at a slower rate of improvement. We have already discussed the fact that the heart appears to be remodeled by endurance training, developing a greater ventricular volume diameter, and other more subtle adapatations that make it a more effective pump.
After about 3-4 months of regular exercise, the improvement in maximal oxygen consumption begins to level off dramatically. At this point, it is common to see about a 15-20% improvement in this variable. For example, a hypothetical male (who I will call Bjorn) with an initial VO2max of 3.5 liters/min (at a bodyweight of 75kg, that's 47ml/min/kg) may increase to 4.0 liters/min, a 14% increase in absolute VO2. If in the process of training, Bjorn also loses 4kg (close to 10 pounds), then his relative VO2 max will have increased even more (from 3500/75 or 47, to 4000/71 or 56 ml/min/kg). This is a nearly 20% improvement.

Unfortunately, after another 6 months of training, it will have increased little more, if any. If the level of training intensity remained the same after the first 4 months, then no further changes would be expected. If on the other hand, Bjorn continues to intensify his training over the next 6 months, a small additional increase might occur. This increase might be as much as 5 additional percent, bringing our example athlete up from an initial value of 3.5 liters/ min at 75 kg, to 4.2 liters/min at 70kg (he also lost another 1 kg of fat). That's 47 ml/min/kg up to 60 ml/min/kg due to a combination of both increased absolute VO2max (20%) and decreased bodyweight (6.7%), for a total improvement in relative maximal oxygen consumption of 27%. This is actually an unusually large improvement in this variable, but definitely plausible.

If our example subject started at a higher level of VO2, the relative improvement would almost certainly be less dramatic. The important point to recognize from this is that VO2 max increases fairly rapidly in response to chronic exercise, then plateaus. If our example athlete continues training another 5 years, his VO2 max won't improve any more. It might actually decrease slightly due to age related declines in maximal heart rate. Depressed? Don't be. There is much more to endurance performance then the Vo2 max.

The Second Wave of Change -The Lactate Threshold

At the same time Bjorn's VO2max was increasing due to central and peripheral cardiovascular adaptations, changes were beginning to occur in his skeletal muscles (let's assume Bjorn is a runner, so the adaptations of interest are happening in the legs).
Initially, an incremental exercise test on a treadmill revealed that Bjorn began to show an substantial increase in lactic acid concentration in his blood while running at 60% of his maximal oxygen consumption. Remember, his max was 3.5 liters/min. 60% of this is 2.1 l/min. So functionally speaking, 2.1 l/min was his threshold workload for sustained exercise. If he runs at a speed that elicits a higher VO2 than 2.1, he fatigues quite quickly. However, over time, the overload of training induced quantitative changes to begin occurring in his leg muscles. Mitochondrial synthesis increased. More enzymes necessary for fatty acid metabolism within the muscle cell were produced. And, the number of capillaries surrounding his muscle fibers began to increase. Additional capillaries are being constructed. The functional consequence of these local muscular adaptations is a very positve one. Bjorn's running muscles use more fat and less glycogen at any given running pace. And, the glycogen metabolized to pyruvate is less likely to be converted to lactic acid and more likely to inter the mitochondria for complete oxidative metabolism. Consequently, Bjorn's lactate threshold begins to increase. After 6 months of training, in addition to a higher VO2max, his lactate threshold has increased from 60% to 70% of max, a 17% improvement in an absolute sense, but functionally much more. Why? Because the 70% is relative to an increased max! So, Bjorn has gone from an initial sustainable oxygen consumption of 2.1 liters/min (60% of 3.5) to a new sustainable intensity of 2.8 liters/min, a 33% improvement!

Now, the important thing to know is this. While VO2max plateaus quite rapidly, lactate threshold does not. If Bjorn continues to train, and increase his intensity appropriately, his lactate threshold will continue to improve slowly for a longer period. Of course, improvements in lactate threshold also plateau, otherwise elite athletes that have been training for 15 years would have LT's of 100% of VO2 max! But, the time course of adaptation is slower, so the plateau occurs after a longer period of intense training, probably several years

It is also important to remember that the lactate threshold is even more specific to the mode of exercise than the VO2 max. This was exemplified by a study performed by Coyle et al. and published in 1991. In this study, 14 competitive cyclists with nearly identical VO2 max values differed substantially in their lactate threshold determined during cycling (ranging between 61 and 86% of VO2 max). When the cyclists were divided into a "low" and "high" LT groups (66% vs 81% of maximal oxygen consumption), it was found that the two groups differed considerable in the years of cycling training (2.7 compared to 5.1 years on average). However, they did not differ in years of endurance training (7-8 years of running, rowing etc.) When the low cycling LT and high cycling LT groups were asked to perform a lactate threshold test while running on a treadmill, the two groups were no longer different. Measured while running, the lactate threshold in both groups averaged over 80% of VO2 max. Similarly, if you are a runner and decide to add swimming and cycling to your training and compete in triathlons, you will immediately recognize that your running fitness does not immediately transfer to the bike, and of course not to the water!

The Third Wave of Change - Efficiency

The final element of our BIG THREE endurance adaptations is efficiency. I think we all know what it means to be an "efficient" person, or own a "fuel efficient car". But, what does the term mean when applied to endurance performance? It means the same thing, getting more done at lower "cost". Efficiency is defined as MECHANICAL WORK/METABOLIC WORK. For example, one (quite good) cyclist can sustain 300 watts power output for 1 hour on a cycling ergometer at a sustained VO2 of 4.3 liters/min. Another rider performing at the same oxygen consumption, squeezes out 315 watts, a difference in efficiency of 5%. Even though both riders have the same "metabolic engine" they have different power output capabilities. You don't do 40k time trials on a lab ergometer, though. So, thanks to my friend the cycling guru, Jim Martin, we can predict their actual performance time in a 40k time trial. If these two cyclists have identical aerodynamics and use aero bars, the times will be 56:10 vs. 55:15. This is only a one minute difference, but probably worth at least 2 or 3 places at the Masters Nationals Time Trial!

So efficiency makes a difference, often much bigger than the above example. And it also varies among different athletes. That's interesting, but not terribly useful for YOUR training. Your big question is probably "Can My Efficiency Improve With Training?". The answer is YES. In highly technical sports like swimming, efficiency differences between beginners and experienced swimmers can be absolutely tremendous! Swimmers already know this full well. In rowing, efficiency also improves dramatically at first, due to gross technical improvements. However, efficiency can also continue to improve after years of training. Dr. Fritz Hagerman followed one group of national class (U.S.) rowers for 8 years, measuring ergometer performance, VO2, lactate threshold, etc. Peak values for maximal oxygen consumption and lactate threshold stabilized after only 2 or 3 years in these hard training athletes. However, performance times on the water and on the rowing machine continued to improve over additional years of training. The reason? Slow improvements in rowing efficiency. One source that is independent of on-water technique may be optimization of workload distribution among the large muscle mass employed in rowing. Ultimately, the rowers who went on to become national team members and have success at the highest levels were more efficient than their peers.

What about the "less technical" sports like cycling and running?
For you cyclists, I call cycling less technical only in reference to the act of pushing the pedals, not all of the equipment and aerodynamics! Again their is evidence for significant improvements in efficiency even after years of training. In studies carried out on "Good" vs. "Elite" cyclists carried out by Dr. Ed Coyle and colleagues at the University of Texas, it appears that elite riders sustain higher power outputs despite similar physiological values in part by learning to distribute the pedalling force over a larger muscle mass. In running, fomer U.S record holder in the mile, Steve Scott, was shown to have improved his running efficiency even "late" in his career.

The Bottom Line
Based on a tremendous amount of both laboratory and "field" data, I would propose to you that the order in which the BIG THREE endurance performance variables reach their peak is 1)VO2max, then 2) lactate threshold, then 3) performance efficiency. Putting it all together, and neglecting for now the negative impact of aging on maximal oxygen consumption, we might get something like the figure below:

When to power up & Using your power wisely
By Jude Turczynski

You hear it all the time in races, "On the next change, ...Power up!" And, a grueling race gets even tougher. As you power up, precious resources are being used up at an alarming rate. Your self confidence is tested to it's core. How do you know the right time to power up? Or, is there a right time? You hear some paddlers say, "you should pace yourself so that you're spent by the end of the race and exceeding that pace leaves less energy for the finish." Some say, "speeding up and slowing down is a waste of energy."

There are a number of occasions when "powering up" can provide substantial gains during a race. Most of the time, powering up will get you tired and give you only four or five feet. Since you can't effectively power up more than a hand full of minutes during any hour of racing, you must choose wisely the moments when your investment will recoup the best returns.
The start is your first opportunity. You have a chance to place yourself and/or your crew in a dominant position early on, so that everyone else behind you is almost automatically placed on the defensive. The faster you get your canoe up to full speed, the more distance you'll place between yourself and those who would take your position. And, just think of that person who is just ahead of you (if you aren't leading), who is as stressed as you from the hard start and who thought you were going to be left behind. Your good start [can] shake an opponent's confidence for a moment...but only for a moment. If you're going to win against a person of equal physical ability, you have to out smart them and out skill them.

In the OC-6, watch your opponent's steersperson to see if they're ruddering excessively. If so, you can power up whenever the steers person stops paddling. Often, this can be several strokes in a row. Every time your whole crew powers up while their crew is powered down, you get great gains for the energy you spend. When the steers person stops paddling, the power drops by 17 percent. When the steersperson "pry's" a rudder against the hull, the power drops by over 20 percent. If the steersperson "Posts" a rudder out away from the hull, power drops by over 22 percent. (And these are conservative figures.) These are the moments when your investment will pay off in high percentages. When your opponent is zigzagging, you can power up to take advantage of their slowed progress as well.

If you're racing into the current/wind to get to a turning marker, the first boat to get around that marker will gain the most distance from the rest of the pack and they'll gain this distance in the period while the next canoe is still bogged down in that wind/current and stuck in the turn. Once you round the marker and are going with wind/current and while your opponent is still moving against wind/current, you can power up here to gain enormous distance against them. Once your opponent rounds the marker and has their boat up to speed with yours, you can drop down power into your hard race pace. It is in this situation that one can gain so much distance that an opponent can not possibly overtake your position. It is not uncommon in most tidal bays and large rivers to gain three to eight boat lengths in this situation. An upwind marker can increase the spread between all boats in a race.

When you see an opponent experiencing discomfort or trouble with their gear, they'll likely be slowing to some degree, and that is your moment to speed up. Sometimes, you can tell that your opponent is in a slow moment where he has lost concentration or is experiencing a momentary lull in energy, again take all advantage of such situations. They may get their second wind just as suddenly.

When rounding a coastal outcropping where you must steer a large arc around an object or a point-break, if you can take an "inside" position while your opponent is paddling farther out in the arc. At this time, you will be traveling a lesser distance that canoe that isn't cutting the curve so close. You can power up here to increase the advantage of your position.
Of course, you can simply pick a random moment to power up, but the difference between your boat speed and your opponent's speed will not be as great as when you carefully pick the right moment. And, you don't want to be spent when that opportunity arrives.

Yes folks Rambo's been busy again. This video will give you a clue on what to expect for the Hamo Movie. Lot's of HD footage, unique visuals and entertaining mood.

Filmed at the recent Burleigh Regatta on the Gold Coast, this little video is about sharing the "Aloha" and the Chores" and i think typifies what is great about belonging to an outrigger club, with everyone pitching in supporting each other and having a great time. ............. Yep, i can proudly say it is my Club, Mooloolaba ... and just maybe, this is part of the formula for it being successful ON the water as well.

We are indeed ... Mad
What do you think?

Enjoy, Rambo

Right Click and save the HQ (32 meg ) version here

http://blip.tv/file/get/Rambooc1-MadMooloolaba980.mp4

Or Play the LQ version here http://blip.tv/file/846588

Or play below

This was a challenge, to film and paddle in a 9 man change over race and focus 100% on the paddling. I shot all the footage myself and I’m rapt in the fact that i gave all for my crew and still managed to capture great shots. I had 3 hours of footage to edit, and this is condensed down too 11 minutes. Apologize for leaving out some of the results as that was all i had confirmed.

Do yourself a favor and download the HQ version and have a permanent copy on your PC. (93meg)
http://blip.tv/file/get/Rambooc1-MooloolabaMastersAtTheCup570.mp4

Or play the LQ version below or larger size here http://blip.tv/file/825620

Cheers Rambo (PS Turn up the sound)



Unofficial Results were
Overall Men

1st Outtrigger Aus - open
2nd Northcliffe - open
3rd Northern Beaches - open
4th Mooloolaba - Masters
5th Team Xylo - Masters

Overall Women

1st Southport YC
2nd Mooloolaba

With the Release of the Dume Run (OC1) video by Painteur and Cho and the Extreme Millers Run (surfski) by Rob Mousley, i felt i had to raise the bar again with a new video of the Moffat Run. Well i think i may have done it, it was awesome to do, but hey, you be the judge.

With bump chasing, trough runs, angle offs, linking and drops filmed in slo-mo and real time, this video could be used as instructional footage for downwind ocean racers wanting to learn more. It's all very clear to see the different techniques and did i have a ball paddling and editing this video. Anyway enough from me ... here it is.

Do yourself a favor and download the HQ version and have a permanent copy on your PC.
http://blip.tv/file/get/Rambooc1-ExtremeMoffatRun604.mp4

Or play the LQ version below

Cheers Rambo

Mooloolaba Master Mens race at the Gold Coast 29 March 2008. Danny Sheard steering and the rear mounted bullet cam takes a hit from a stray Ama and is dislodged just after the start. I also copped an Ama over the shoulder at seat 2 not long after this happened. This was only the start of the trouble, there were multiple collisions, spin-outs and take-outs all the way out to the river mouth. Unfortunalety, both my other Iako Cams malfunctioned and missed all the carnage. Bummer.

Click To Play Video

My latest wireless HQ SuckerCam.

This little baby i made to suction mount onto any flat or curved surface, like an OC6 front or rear deck or as i have just done, behind me on the “Peggie OC1”.

It has 520 line Bullet Cam with 10 hour battery and Digital Recorder in the Pelican box. The picture quality is awesome. I have 2 lens for it, 127 degree wide angle and 90 standard. Weight is around 3LB.

This thing sticks like a leech, and after huliing big time yesterday in big surf, never moved. I do attach a lanyard just in case though.

Watch the video from the SuctionCam mounted only 3 ft behind me.

Not a big fan of the HelmetCam as it gives jerky footage, but it can be useful.

And RalphCam of Course