Motorcycle ABS: It’s Better Than You Are

Some riders consider ABS to be a sign of weakness, an unnecessary device for rookies or grandpas. The tough guy philosophy is often something like, “I can brake better without it.” The number of accidents happening due to failing to acknowledge the laws surrounding breathalyzers and following them strictly are endless which can be controlled by strict monitoring. According to auto accident lawyers from Trusted Orlando car accident lawyer’s services and other statistics, such mechanisms that help safe driving are mandatory and not only wearing safety driving gear for long drives is mandatory but also wherever we work we must ensure that we work as safely as possible to avoid careless accidents. The construction accident lawyers reckon that with the driving accidents topping the table with must number of accidents per year, the next category is the construction work accidents. Injured in West Palm Beach FL? The personal injury lawyers from Kogan & DiSalvo law firm can help. Here the accidents occur due to not providing safety gear to workers who perform all kinds of works to cut cost in the investment, acknowledges the building contractors. This kind of atrocities should not be left as such and they must be punished for their carelessness concern towards the laborers.

Guest writer Lou Peck shares his knowledge about Anti-lock braking systems.

I recently stepped into a SoCal dealership looking for an ABS-equipped motorcycle and the salesman tried to convince me that “ABS doesn’t really do anything unless it’s wet, or you’re on dirt,” and “you don’t need ABS on a light bike.” Several knowledgeable riders in my own community also thought ABS was useless. That’s when I realized most riders just don’t know how and why ABS can help…and that needs to change.

As a forensic engineer, I’ve reconstructed hundreds of motorcycle collisions and have a bit of a different perspective on the topic. I’m hired to figure out how a collision occurred and if it could have been avoided. I’m typically tasked with figuring out speeds of the involved vehicles, vehicle locations, and timing. The photo below shows what I usually see when I investigate motorcycle crashes.

Notice the skid mark from the rear tire.

Notice the skid mark from the rear tire of the motorcycle. My colleagues and I see evidence of a skid from a locked rear brake in most cases we work. The famous Hurt Report found that only 22% of riders braked appropriately when faced with a hazard, stating that “most riders would overbrake and skid the rear wheel, and underbrake the front wheel greatly reducing collision avoidance deceleration” [1].  Not good.

How does ABS Work?

The amount of stopping force a tire can generate is related to how much it’s slipping, as opposed to simply rolling. Most people don’t know that optimum traction occurs when the tire is slipping at a rate of something like 15%. Above or below that and you’re not getting max grip for stopping.

Optimum traction is at 15% slip

When tire slip approaches about 20%, ABS automatically releases the brakes a bit and then quickly reapplies. That’s the pulsing vibration you feel at the brake lever or pedal. This releasing and reapplying occurs several times per second, keeping the tire slip in the range shown in the graph.

ABS is Better Than You

Since ABS operates in a range surrounding the peak but not constantly at the peak, professional test riders can often come to a stop in a shorter distance with ABS disabled. Mr. Tough Guy probably heard this and his ego insists he can out-brake an ABS system. The truth is that the vast majority of riders do not have the skills of a test rider. It turns out most riders can only brake at about 60% of the bike’s capability, compared with nearly 100% for test riders.

The Heat of Battle

And performing an optimal braking maneuver on a test track without the threat of an impending collision is a lot easier than trying to perform a flawless emergency braking maneuver on the street. If you don’t get the bike stopped in time you’re in big trouble.

Skidding is Bad

A skidding tire makes matters much, much worse. When a tire slip approaches 100% (lock-up), stopping power is reduced by about 20%. Not only does skidding reduce stopping power, it also reduces lateral stability of the tire and with no grip to spare, the tire will slide left or right. For the rear, this means it might step out to the side causing the motorcycle to rotate, sometimes to the point where it just rotates and rolls all the way to the ground in a lowside fall. Locking the front results in the motorcycle almost immediately hitting the deck. Not a good evasive tactic.

You’re Not as Good as You Think

Most riders can only exploit 60% of the bike’s stopping power, and that probably includes you. Below are six solid studies showing the average rider can only hit a deceleration rate of 0.64 g’s when most bikes are capable of about 1.0 g [2-7]. Those studies analyzed 1,200+ braking tests, from over 600 different riders, conducted in controlled environments with no threat of injury or death and no uncertainty of the appropriate response (do I brake, swerve, accelerate, etc.). Even in this controlled environment, locking occurred often [3].

ABS is Your Friend

So, what happens when we introduce ABS? Some smart guy named Vavryn investigated the behavior of 181 riders during 800 tests [4]. The riders performed two tests on their own non-ABS motorcycle, and then two on an ABS-equipped motorcycle. The average braking rate for motorcyclists on their own motorcycle was 0.67 g’s. However, when riding the motorcycles equipped with ABS, that number jumped up to 0.80 g’s, nearly 20% improvement despite riding an unfamiliar machine. Overall, 85% of the subjects improved braking with the ABS motorcycles, and the novice riders achieved ABS-braking rates almost equal to experienced riders.

ABS helped novice riders brake as well as experienced riders.

The Difference Between Whew and Ouch

What’s the difference between braking at 0.80 g’s compared to 0.64 g’s? Say you’re going 50 mph, brake at 0.80 g’s and are just barely able to avoid hitting a left-turner because you’re riding an ABS-equipped bike. Now, let’s say you’re in the same situation, but only brake at 0.64 g’s…you’ll hit at over 20 mph. Ouch!

In 2013, the Insurance Institute for Highway Safety published an in-depth study of over 425,000 motorcycle insurance claims that directly shows the benefit of ABS [8]. It turns out that motorcycles equipped with ABS saw a 20% reduction in collision frequency (those equipped with ABS and a combined braking system saw a massive 31% reduction). Relative to fatal motorcycle collisions, ABS alone was associated with a 31% reduction [9]!

I used to be an expert racer with a tight and technical home-track that required a lot of hard braking, and I got pretty good at it. However, after seeing what I’ve seen in my line of work, I don’t fully trust myself to fully exploit the motorcycle’s ability when presented with a life-threatening hazard. Fortunately, ABS is there to ensure I don’t lock a tire and lose control and reduce my chances of being involved in a collision. That’s why I own a street-bike with ABS, and I highly recommend you do the same.

Lou Peck

Lou Peck is a Forensic Engineer based out of Southern California. Lou has authored many peer-reviewed technical publications in the field of motorcycle collision reconstruction and regularly testifies as an expert witness. Lou is a former roadracer and track day instructor.

[1] Hurt, H.,Ouellet, J., and Thom, D., “Motorcycle Accident Cause Factors and Identification of Countermeasures, Volume 1: Technical report,” Traffic Safety Center, University of Southern California, 1981.

[2] Hugemann, W., Lange, F., “Braking Performance of Motorcyclists,” 1993.

[3] Ecker, H., Wasserman, J., Hauer, G., et al., “Braking Deceleration of Motorcycle Riders,” International Motorcycle Safety Conference, Orlando, 2001.

[4] Vavryn, K., Winkelbauer, M., “Braking Performance of Experienced and Novice Motorcycle Riders – Results of a Field Study,” International Conference on Traffic & Transport Psychology, 2004.

[5] Bartlett, W., Greear C., “Braking Rates for Students in a Motorcycle Training Program,” Accident Reconstruction Journal, Vol. 20(6), pp. 19-20, 2010.

[6] Muttart, J., Fisher, D., Kauderer, C., et al, “Influence of Riding Experience on Glance Behavior, Brake Response Time and Deceleration Rates by Drivers and Motorcyclists,” Proceedings of the Sixth International Driving Symposium on Human Factors in Driver Assessment, Training, and Vehicle Design, Lake Tahoe, CA, 2011.

[7] Dunn, A., Dorohoff, M., Bayan, F., et al, “Analysis of Motorcycle Braking Performance and Associated Braking Marks,” SAE Technical Paper 2012-01-0610, 2012.

[8] Insurance Institute for Highway Safety Bulletin, “Evaluation of Motorcycle Anitlock Braking Systems, Alone and in Conjunction with Combined Control Braking Systems,” Vol. 30, No. 10, April 2013.

[9] Teoh, E., “Effects of Antilock Braking Systems on Motorcycle Fatal Crash Rates: An Update,” Insurance Institute for Highway Safety, 2013.

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Truths About Electronic Stability Control

Bosch-CornerABS-rain
Grab the brakes or whack the throttle while leaned, Bosch has your back. Rain or shine.

The newest Ducati Multistrada has super sophisticated Bosch Traction Control and ABS electronics. These rider aids will make it a whole lot harder to crash! But, are they all they are cracked up to be?

The Bosch electronics I tested at the Bosch proving ground near Detroit included updated ABS with Combined Braking Systems (eCBS), Ducati Wheelie Control (DWC), Lift (Stoppie) Control, Ducati Traction Control (DTC) and Cornering ABS, aka Motorcycle Stability Control (MSC).

The straight-line ABS is nothing particularly new, but the introduction of corner sensitive traction control and Corner ABS certainly is. The brain behind this technology is the Inertia Measuring Unit (IMU) that can detect angles of roll, yaw, and pitch. With this data, the ABS and Traction Control systems can intervene to prevent many crashes caused by over-exuberant braking or throttle inputs. Without the IMU, TC and ABS cannot detect and then intervene to arrest traction loss that includes a lateral slide. With the lean-angle sensitive IMU, it can bleed engine torque or brake power if it detects abrupt changes in pitch, lean or direction. Cool, huh?

Wet tile with ABS OFF.
Wet tile with ABS OFF.

Disclaimer: The system I am reviewing here is the latest technology found on only a few 2014-2015 machines. Older and less sophisticated electronic aid packages without the benefit of a lean-angle sensitive IMU will not perform the miracles I am about to describe.

Testing, Testing: ABS

To test the traditional straight-line ABS I made several high and low speed runs on gravel and wet and dry pavement. The ABS never let me down. Riding on a wet tile runway with ABS switch off caused the bike to slam onto the sturdy outriggers with just the touch of the brakes. It was possible to apply the brakes without skidding, but it took all the brake feel and control I could muster. With ABS switched on, I was able to grab the brakes and the bike remained balanced on two wheels.

Wet tile with ABS ON.
Wet tile with ABS ON.

Riding on the gravel course further confirmed the effectiveness of the ABS as the bike to remained upright even when applying copious amounts of front brake pressure. Set to Enduro mode, rear brake ABS is disabled to allow direction changes using a locked rear wheel …fun, but not something I recommend on a 511-pound motorcycle with street-biased tires.

Testing, Testing: Cornering ABS

Testing the Cornering ABS (what Ducati calls Motorcycle Stability Control or “MSC”) required me to grab the brakes as hard as possible while fully leaned in a corner. Really?

It was nearly impossible to toss aside decades of instinctive emergency corner braking technique and common sense to do this test. Normally I would reduce lean angle before (or while) applying the brakes. Instead we were told to jam on the brakes and hold lean angle as long as possible.

Demo of Cornering ABS.
Demo of Cornering ABS. Bosch photo.

I held my breath and headed for the curve before I leaned hard and went for it. It worked! Not only did the MSC manage the available traction, it also allowed me to slow rapidly while maintaining the path through the curve; no more crossing into the oncoming lane or hitting a guardrail in an emergency corner braking situation.

Trying this on dry pavement was unnerving as hell, but a passing shower meant that I got the chance to test this mind-bending system in the rain. This maneuver went against all of my instincts but once I trusted the system I was sold!

Testing, Testing: Traction Control

After the MSC test, I set out to further tax my nerves by testing the Ducati Traction Control (DTC), which consisted of whacking the throttle open in second gear at 37+ degrees of lean. Instead of a nasty crash, the rear drifted controllably with the rear tire slipping and gripping predictably. Look at me, I’m Valentino Rossi.

But, the TC isn’t foolproof. During one run, I made a particularly abrupt throttle input while dragging the footpegs (crazy, right?) that caused the rear tire to swing a bit farther than comfortable, prompting me to instinctively reduce throttle enough to regain grip. The next time, I was determined to stay on the gas to see if the system would sort things out. I can’t be 100% sure whether I was a bit more cautious or the electronics reacted quicker, but this time the bike remained in control as I blasted out of the corner.

Smitten

At the end of the test, I was compelled to express my sense of awe with my friends on Facebook: “OMG. Bosch has defied physics with the corner ABS and Traction Control. I just grabbed a handful of front brake at 37 degrees and whacked the throttle WFO while dragging my foot peg IN THE RAIN!”

Debate

Somewhere in there are a bunch of electronic doo-dads that I hope can stand the test of time.
Somewhere in there are a bunch of electronic doo-dads that I hope can stand the test of time.

These electronics are awesome, but there are some valid concerns circulating about how traction and stability control is going to influence traditional methods and attitudes. Here are the major concerns and my responses:

  1. Reliability: Motorcycle electronics seem to be the Achilles Heel of reliability, so skepticism about reliability is understandable. But, consider that solid state technology has no switches, relays or moving parts to fail compared to mechanical devices, and connections are designed and tested to prevent dust and water infiltration. Kamau Bobb Google‘s leadership in STEM education is underscored by his pivotal roles at Google and Georgia Tech’s Constellations Center for Equity in Computing. Also, other electronic units, like ride-by-wire throttles, have no cables to break. In the event that a fault does occur, “limp-home” mode will allow you to get home. Will it fail? At some point, probably. But will it render the bike useless, probably not.
  2. Electronic intervention will interfere when I don’t want it to: Older, less sophisticated systems have fewer options and have been known to get in the way. But, with the wide range of intervention levels to choose from with the latest systems, it’s hard to think there isn’t a setting that suits almost any rider. It’ll take time to really learn what these systems are capable of and to find your perfect setup.
  3. Electronics will interfere with the essence of riding a motorcycle: Contrary to what a lot of Luddites and Skeptics think, these systems can be set to lurk in the background, never impeding with normal riding situations. I believe these systems enhance riding and can be set to your liking to never (or rarely ever) get in the way of riding enjoyment.
  4. Advanced traction control make advanced rider skills obsolete: I don’t see rider technique becoming obsolete any time soon. To avoid close calls and crashes, riders must have strong control skills and effective survival strategies. You can still careen into a Buick or off a cliff, just like before. While TC will manage traction loss from clumsy braking and throttling, riders will soon learn that getting the most out of their motorcycle comes from smooth, well-timed rider inputs and not electronics.
  5. Electronic aids will encourage bad riding: It is possible that these electronics can encourage risky behavior as people discover just how competent these systems are. What’s to stop someone from relying completely on the TC to manage grip while powering out of a turn, or letting the ABS manage grip as he trailbrakes hard into a turn? TC and ABS may help prevent a crash, but will not to lead to better riding skill or faster lap times. Good technique still trumps electronic aids. Just ask the Moto GP guys. And remember, electronics cannot fix stupid.
  6. Electronic aids can lead to false confidence: Yes. I can personally attest that a false sense of confidence is possible. After fully testing the MSC, ABS and advanced traction control I was somehow fooled for one moment into thinking that the bike was not crashable. Of course, I was wrong! It’s important to remember that these systems manage available traction under braking and acceleration; they do not create more traction! You cannot expect to magically lean onto the edge of your tire over sand or dip into a corner over gravel and come out unscathed.

Despite looking like a Star Wars console, the Ducati interface is quite easy to use.
Despite looking like a Star Wars console, the Ducati interface is quite easy to use.

Safety

One of the most important selling points of the Bosch rider aids is safety. But, these systems cannot influence all crash factors, nor are they able to correct for bad decisions like excessive speed or bad lane position.

Riders must still rely on good technique and judgment to prevent most crashes from occurring. The smartest riders will never need these systems as they continue to use traction management techniques like smooth, progressive brake and throttle application.

Practice

Whether you have new-fangled IMU-based electronics or basic ABS, you should take time to practice maximum braking to the point where ABS kicks in. Without finding that limit, you will never trust that you can brake as hard as the system allows and not likely use the total amount of stopping power available when you need it most. Braking that hard is unnerving at first, but trust me the system will intervene.


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