Episode 165 - Safety, Security, and the Science of G's
Executive Protection and Secure Transportation Podcast
Release Date: 01/26/2021
Episode 210 - The Science of the Omar García Harfuch Ambush and Lessons Learned
Executive Protection and Secure Transportation Podcast
The Introduction to The Science of a Vehicle Ambush – Vehicle Ambush 101 For nearly half a century, ISDA’s founder, Tony Scotti, has been leading the way in understanding the “how” and “why” of vehicle ambushes. Since the mid-’70s, Tony has been conducting forensic analysis of vehicle attacks and distributing his findings to the Ep and Secure Transportation community. So, in June of 2020, the Omar Garcia Harfuch (OGH) vehicle ambush was not the first time Tony has gone through the painstaking process of accurately analyzing a lethal ambush targeting a high-profile, at-risk...
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Episode 209 - The State of Security Driver Training
Executive Protection and Secure Transportation Podcast
A tragic video has been circulating throughout various social media. It took place at Fort Tiuna in Caracas, Venezuela. The video is from a bodyguard training program. This terrible event brings to light a problem – which is the state of security driver training. Read the full show notes from this episode at
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Episode 208 - Security Driver Pay Scale
Executive Protection and Secure Transportation Podcast
This episode is a continuation of , where we continue to look into security driver salaries. While curating Security Driver job opportunities for our International Security Driver Association members, we data mined the salaries offered on LinkedIn and Employment Websites. Our goal was to get an idea of the Security Driver’s Pay Scale. One of the issues we had was the definition of a Security Driver. It seems that Security Driver can be used to define a person patrolling a parking lot while unarmed- to a person responsible for supplying safe and secure transportation for an executive- and...
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Episode 207 - Applying the Science of Driving to the Indy 500
Executive Protection and Secure Transportation Podcast
This Sunday, May 29th, will be the 106th running of the Indy 500. So, we thought we would apply the Science of Driving to the Indy 500 and do a simple analysis of the track and the drivers. Hopefully, it will make watching the race more enjoyable.
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Episode 206 - Spending for Secure Transportation Continues to Increase
Executive Protection and Secure Transportation Podcast
Meta released their 2021 SEC 14A filing recently. As our research shows, there is year over year increase in secure transportation spending. Unlike social media posts and comments, there are businesses willing and able to hire those who meet the required ESK - Experience, Skills, and Knowledge. Full show notes are available at .
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Episode 205 – Executive Vehicle Safety and Car Specifications
Executive Protection and Secure Transportation Podcast
This episode will cover Executive Vehicle Specifications, including H-Point, Vision Line Height, Cargo Room, and how these measurements affect the safety and security of the vehicle occupants. We’ll also touch on another safety topic, advanced driver assistance systems. As we have said many times, the executive vehicle is the instrument used by the Security Driving and Secure Transportation profession to earn a living. Many of our Association Members are responsible for the selection and eventual purchase of the executive vehicles. In the next few years, all vehicles, including Executive...
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Episode 204 - Runflats, Winter Tires, and Electric Vehicle Tires
Executive Protection and Secure Transportation Podcast
When news about tires and how they affect the Security Driver and the Secure Transportation function comes into the Association’s network, our members and we feel that we need to make the community aware of this important news. So here are a few news items that have come out lately that we hope can assist you. The first news item that got our attention and was the catalyst for the episode. An article from Automotive Fleet shared a statistic from the National Highway Traffic and Safety Administration (NHTSA) that mentions that 11,000 accidents are caused every year due to defective...
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Episode 203 - Why Do You Need a Security Driver?
Executive Protection and Secure Transportation Podcast
The question that many Security Drivers and Secure Transportation providers have heard – “Why do I need a Security Driver – Why can’t we use a chauffeur service?” Or – why can’t we use an Uber or Lyft car? A few years ago there was an article that appeared in Security Magazine, titled “What to Look for in Travel Security and Executive Protection Services.” While the article may be old the content is still valid. The author concludes that while the Executive is traveling, having a security-trained driver is paramount to a successful executive protection program. As the...
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Episode 202 - Impressive Skidpad Tests for Executive Vehicles, and Canopy Vehicle Protection System , Tesla Driver Charged
Executive Protection and Secure Transportation Podcast
In today’s episode, we have three news stories to share – the driver of a Tesla charged with vehicular manslaughter, we’ll take a look at a few executive vehicle’s impressive skidpad tests and what that means for the security driver, and a new tech venture with Ford and ADT to combat thieves.
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Episode 201 - Road Rage Statistics
Executive Protection and Secure Transportation Podcast
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Ensuring the passengers’ safety and security requires the driver to have the knowledge, skill, and experience to control the vehicle when confronted with an emergency. The emergency does not necessarily need to be a security scenario; it can often be an accident-producing situation.
As we have mentioned many times in the past, research and science define driving skill as the driver’s “ability” to use the vehicle’s “capability.”
Former VDI or Scotti School students know that we were and are anal about training our students to maximize the vehicle’s capability. The more of the vehicle’s capability the security driver can use, the higher the probability that the driver will avoid an accident or other life-threatening scenario.
To pass the VDI course or be certified as an ISDA Security Driver, a driver must demonstrate they can use a minimum of 80% of the vehicle’s capability.
The simple scientific fact is that every tenth of a percent that VDI can train the driver’s ability to use the vehicle’s capability is a lifesaving skill. But it is hard to conceptualize how a 1% increase in driver ability increases the principal and passengers’ safety and security; hence, an explanation is in order.
Safety/Security and the Concept of G’S
We need to explain the G forces’ effect on the Driver/ Principal/Vehicle safety and security.
The best way to understand a specific vehicle’s safety dynamics is by understanding how G-forces affect the driver/vehicle’s capability to stay in control. Anytime the steering wheel is moved while the car is in motion, a lateral or sideways force is created. This force is pushing in the opposite direction the car is turning.
The term G’s is a measurement of the force acting on the car. It is this force that determines if the driver can stay in control of their vehicle. A tenth of a G can make the difference between avoiding a potential accident or vehicle attack scenario – or not.
Scenario A – at a given speed, if the path of a 4,000 Lb/1814.4 Kg car is altered in a way that produces one G, that one G of force is equivalent to 4,000 Lb/1814.4 Kg of force pushing on the vehicle center of gravity (CG) pushing the vehicle away from its desired path.
There is a simple equation that is used to determine the amount of force pushing on the vehicle. The amount of force pushing on the car is equal to the G’s times the vehicle’s weight.
Scenario B – At that same given speed in scenario A, if we turned the steering wheel of our 4,000 Lb/1814.4 Kg car in such a way that .7G was created, then we would have created 2,800 lbs./1270 Kg of force. We came to those numbers by multiply the vehicle weight times .7 G’s or 4,000/1814.4 Kg X .7 g’s = 2,800 lbs./1270 Kg.
If the car weighed 3,000 lbs/1361 Kg and the steering wheel was turned the same number of degrees at the same speed, and the vehicle took the same path, the equation would read 3,000 lbs/1361 Kg (the vehicle weight) X .7 g’s or 2,100 lbs/953 Kg of force, and so forth.
Understand the lateral G-forces created in a turn are based upon both the vehicle’s speed, weight, and how much the steering wheel is moved or the degree, or sharpness, of the turn.
The purpose of using G’s as a measuring tool
G’s are used as a measurement of driving skills and method of testing vehicle capability. The purpose of using G’s instead of weight for a measuring tool is because saying that “there are 2,800 lbs./1270 Kg. of force being exerted on the car” does not tell us very much.
The 2,800 lbs./1270 Kg. of force number is meaningless unless the weight of the car is also known. For instance, if 3,000 lbs/1361 Kg of force is exerted on a 5,000 lb/2268Kg car, that’s no big problem.
However, if you take a corner in such a way that 3,000 lbs/1361 Kg. is being exerted on a 2,000 lb/907 Kg car, you’re in big trouble.
It’s far easier to say, “This vehicle is designed to absorb .7 Gs.” If we use a 5,000 lb/2268Kg car for this example, then .7 Gs means the vehicle can absorb 3,500 lbs/1588 Kg of force before becoming unstable. (5,000 lb/2268Kg x .7 g’s)
If we use our lightweight 2,000 lb/907 Kg car, then that .7 Gs is the equivalent of 1,400 lbs./635 Kg of force. (2,000 lb/907 Kg x .7 g’s)
G’S X WEIGHT OF CAR = HOW MUCH WEIGHT (FORCE) IS PUSHING ON THE CAR.
Now to the original question
Why for decades have we been adamant about ensuring students reach 80% or more of the vehicle’s capability, and while conducting training, the instructors will spend an inordinate amount of time ensuring you can use every tenth of a G the vehicle offers?
The answer – a tenth of a G could mean the difference between surviving or not surviving. Here is an example:
Using the science of driving and applying metrics and equations that are familiar and often used in accident reconstruction technology, we can conceptualize the value of adding .1 G to the driver skill level.
If the vehicle is traveling 40 MPH/64.4 KPH in a vehicle/driver combination that can handle at .85 G’s, and there was an object (barrier) that measures 10 Feet/3.1 Meters wide in front of the driver, they would need approximately 49 Feet/15 Meters of distance to clear the barrier.
With all the parameters the same as above, such as vehicle position and speed (40 MPH/64.4 KPH) with a Vehicle/Driver combination that handled at .7 G’s, The driver would need approximately 55 Feet/17 Meters of distance to clear a barrier that 10 Feet/3.1 Meters.
If traveling 40 MPH/64.4 KPH with a Vehicle/Driver combination that handled at .6 G’s, the driver would need approximately 59 Feet / 18 Meters distance to clear a barrier that is 10 Feet/3.1 meters.
Same scenario traveling 40 MPH/64.4 KPH but now with a Vehicle/Driver combination that handled at .5 G’s the driver would need approximately 65 Feet/19.8 Meters distance to clear a 10 Feet/3.1 Meter barrier.
With all the parameters the same as above, such as vehicle position and speed (40 MPH/64.4 KPH) but now with a Driver/Vehicle combination that can handle only .4 G’s, they would need approximately 72 Feet/ 22 Meters of distance to clear the same barrier.
Every 10th of a G that you can use gives you more time and distance to drive out of the problem – this is why computers are needed to measure the driver’s ability to use the vehicle’s capability.
These measurements can be computed using a radar gun and accurately measuring the vehicle’s path through individual exercises.
Understanding the concept of lateral acceleration is a must for a security driver.
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