Velocity-based training (VBT) is great for improving how effective your training sessions are with its real-time performance feedback, allowing you and your athletes to fine-tune your training in the gym.
That said, it can be tricky moving velocity-based training from theory to application because it’s quite different from traditional training.
Today, we’ll explore the ins and outs of VBT, comparing it with traditional percentage-based training, looking at who can benefit the most from it, and checking out some of the best devices for it.
Let’s jump in!
What is Velocity-Based Training (VBT)?
So, what is velocity-based training?
Basically, it’s a method of training that uses the speed of movement to decide on the load and volume of exercises in a training session.
More specifically, that speed of movement is a measurement of how fast an athlete can move the weight they’re lifting.
VBT is very individualized and adaptive, as it accounts for daily fluctuations in an athlete’s performance.
One of the biggest benefits of velocity-based training is that it gives you real-time feedback on lifts so that you can make immediate adjustments to optimize your training.
Velocity-Based Training vs Percentage-Based Training
Percentage-based training relies on the predetermined percentages of an athlete’s one-rep max (1RM), whereas VBT focuses on the velocity at which an athlete can move a given load.
That said, traditional percentage-based training has been a staple in strength and conditioning programs for decades for a reason.
Since it involves prescribing loads based on a percentage of an athlete’s 1RM, it keeps the intensity of training close to optimal.
While effective, this approach has its limitations:
- Static Prescriptions: Percentage-based training doesn’t account for daily variations in an athlete’s performance due to factors like fatigue, stress, or nutrition.
- Lack of Real-Time Feedback: Athletes might not know if they’re lifting too heavy or too light on any given day.
- Skill Requirement: Performing a 1RM requires a certain amount of skill and experience with that specific lift that’s being tested. This can make 1RMs inaccurate for new lifters or those that don’t do 1RMs regularly, affecting the programming.
VBT offers several advantages over this:
- Dynamic Adjustments: VBT allows for real-time adjustments based on the athlete’s performance thanks to the immediate feedback, which allows them to train at the optimal intensity even if they’re fatigued.
- More Motivation: The real-time feedback can serve as a motivational tool, encouraging athletes to push harder and achieve better results.
- Beginner Friendly: Whether you’re a new or experienced lifter, VBT doesn’t require much skill past lifting the weight correctly, which can be taught quicker than a true 1RM.
Who Should Train with VBT
VBT can be a great training method for everyone, but it’s especially beneficial for:
- Elite Athletes: Those looking to gain a competitive edge through precise and adaptive training.
- Strength & Conditioning Coaches: Professionals who want to provide more individualized training programs for their athletes.
- Rehabilitation Specialists: Physical therapists and other professionals who need to monitor and adjust training loads for injured athletes.
- Amateur Athletes: People who want to optimize their training and track their progress more accurately when they can’t get an accurate 1RM.
Velocity-Based Training Devices
You need reliable devices that can accurately measure the velocity of each lift if you want to get the most out of VBT.
Several types of tools are available on the market, each with its unique features and benefits.
Two of the most popular types of VBT devices include:
Wearable Sensors
These can be attached to the athlete or the equipment to measure velocity in real-time.
One standout device in this category is the Enode Sensor.
Known for its precision and ease of use, the Enode Sensor provides accurate velocity measurements and integrates seamlessly with other training tools.
It’s small, lightweight, and much more affordable than many other options, making it a great tool for budget-friendly VBT or large groups of athletes when you buy multiple.
Linear Position Transducers (LPTs)
These devices measure the displacement and time of a lift, providing accurate velocity data.
They’re tethered to the barbell or athlete, making them a great option if accuracy is the most important aspect you’re looking for–it acts similar to a measuring tape.
LPTs are also one of the easiest VBT devices to use.
Something like this GymAware PowerTool is a LPT – make sure to check out our GymAware guide to get the most out of them!
How is Velocity-Based Training Used?
With all this data, how do you actually use velocity-based training?
A good way to start is by setting your training goals, then following a couple steps:
- Initial Assessment: Use the data from your VBT device to get a baseline from your athletes. You can use this data to measure their 1RM, which will help guide weight-setting.
- Set Velocity Zones: Define specific velocity ranges for different training goals so that you can train for different types of strength, power, speed, etc.
- Monitor and Adjust: Use VBT devices (like the Enode Sensor) to monitor the athlete’s velocity during each lift and adjust the load or volume as needed.
- Track Progress: Take advantage of immediate data and review it to identify trends and make both short and long-term adjustments to the training program.
VBT Training Metrics
There are a couple key metrics in VBT that you want to keep an eye on:
- Mean Velocity: The average speed of the lift, often used to determine the overall effectiveness of a training session.
- Peak Velocity: The highest speed achieved during a lift, useful for assessing explosive power.
- Velocity Loss: The percentage decrease in velocity from the first to the last repetition, indicating fatigue and helping figure out when to best rest.
- Rep Height, Distance, Duration: Often through visual data, this metric shows the distance of your movement path and the time it took.
There are more metrics, but not every device measures the same ones.
Velocity-Based Training Methods
There are several methods for integrating VBT into your training program, each with its unique benefits:
- Load-Velocity Profiling: This method involves creating a profile that maps the relationship between load and velocity for an athlete. This profile can be used to determine the optimal load for different training goals.
- Autoregulation: By using real-time velocity data, athletes can adjust their training loads on the fly, ensuring they’re always working at the optimal intensity.
- Cluster Sets: This method involves breaking a set into smaller clusters with short rest periods in between. By monitoring velocity, coaches can make sure that each cluster is performed at the intensity goal.
- Velocity Targets: Setting specific velocity targets for each lift can help athletes focus on improving their speed and power.
- Velocity Drop-Offs: Use velocity loss to control volume and manage fatigue.
- Estimate 1RM: Predict 1RM using velocity.
- Monitoring Progress: Track strength development over time without risky 1RM tests.
Conclusion
Velocity-based training is a powerful tool that can transform the way athletes train.
By focusing on the speed of movement, VBT allows for more individualized and adaptive training sessions, providing real-time feedback that improves performance.
If you want to move your velocity-based training from theory to application or take your current velocity-based training up a notch, make sure to visit our store and look into VBT devices like the Enode Sensor!
FAQs
How to implement velocity-based training?
Implementing velocity-based training involves using technology to measure the speed of an athlete’s movements during exercises. This data helps adjust training loads in real-time to optimize performance and reduce the risk of injury. To get started, you’ll need a device like a linear position transducer or an accelerometer, which can be attached to the barbell or other equipment. During workouts, the device provides immediate feedback on the velocity of each lift, allowing for adjustments in weight or repetitions based on the athlete’s performance. This ensures that athletes are training within the most effective velocity zones for their specific goals, whether they are focusing on strength, power, or endurance.
Is velocity-based training worth it?
Velocity-based training is highly beneficial for athletes and coaches who aim for precise and individualized training programs. By using velocity as a metric, VBT allows for real-time adjustments that can lead to more effective workouts and quicker adaptations. Athletes can avoid overtraining and undertraining by making sure they are working within the optimal velocity ranges for their specific goals. VBT also helps track progress more accurately and provides a more responsive and adaptive training environment. For those committed to maximizing performance and minimizing injury risks, VBT is definitely worth it.
What is the difference between VBT and percentage-based training?
The main difference between velocity-based training (VBT) and percentage-based training lies in how the training loads are determined and adjusted. Percentage-based training relies on predetermined percentages of an athlete’s one-rep max (1RM) to set the load for each exercise. VBT uses the actual speed of movements to adjust loads in real-time, providing a more dynamic and responsive training approach.
What kind of technology does velocity-based training use?
Velocity-based training uses several types of devices to measure the speed of an athlete’s movements. The most common devices are linear position transducers, accelerometers, and wearable sensors. Some systems integrate with software applications to offer more detailed analytics and feedback, making it easier for coaches and athletes to track progress and make informed adjustments to training programs.
What are the advantages of velocity-based training?
One of the main benefits of VBT is the ability to make real-time adjustments to training loads based on the athlete’s performance. This provides more accurate tracking of progress, as it accounts for daily variations in an athlete’s condition, which also helps avoid overtraining. VBT can also help identify strengths and weaknesses by analyzing the velocity at different loads.
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