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Blast Baseball 360 Is The Most Accurate Baseball Sensor On The Market

Blast Motion recently took part in a third-party validation test to verify its accuracy against the top two baseball swing sensor competitors on the market: Diamond Kinetics and Zepp. The results from The Center for Human Performance are in. And they confirm the earlier findings:

• Blast’s swing sensor is the most accurate baseball sensor on the market.
• Dynamic calibration makes the Blast sensor much easier to use in an athlete’s natural environment than any available alternative.

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Blast Motion is the most accurate sensor on the market.
Blast Motion is the most accurate sensor on the market.

About the Center for Human Performance

The Center for Human Performance is a state-of-the-art motion analysis institution based in San Diego, CA. With expertise in kinesiology, biomechanics, engineering, athletic training, and orthopedics, the Center offers a comprehensive suite of sports science and motion-capture services – all backed by extensive experience and clinical research. Center Director Arnel Aguinaldo also serves as Assistant Professor, Kinesiology at Point Loma Nazarene University and VP of Applications Development for Motion Analysis Corporation.

An Accurate Baseball Sensor? The Swing Sensor Comparison Study

Led by Aguinaldo, the study compared the baseball swing sensor and analyzer of Blast to those manufactured by chief competitors Diamond Kinetics and Zepp. Fifteen male college and minor league baseball players over the age of 17 swung a 33-inch, 30-ounce baseball bat equipped with four reflective markers, allowing for 3D motion analysis of the bat during each swing at a sampling rate of 300 Hz. Each of the three swing sensors was attached to the bat in random order and the 15 subjects all hit a baseball off a tee 10 times with each sensor – while marker locations were captured from the motion-capture system.

All trials were performed inside a 100-by-15-foot enclosed batting cage. Baseball swing data was recorded from each sensor using each respective sensor’s mobile apps – then compared to Motion Analysis MoCap camera 3D motion-capture data to measure the error in swing speed (i.e. degree of accuracy).

Baseball Bat Swing Sensor Validation

An Accurate Baseball Sensor Defined: About the Test Results

Blast consistently outperformed its competition in several areas of the swing sensor study the most important being accuracy and ease of use.

Accuracy: When it comes to swing sensors, accuracy is the name of the game. It’s the key metric in play, and was the main focus of this study. Blast’s swing sensor exhibited the lowest margin of error – and was significantly more accurate than Zepp’s sensor. Blast’s standard deviation was 3 mph, compared to 5 mph for Diamond Kinetics and 7 mph for Zepp.

Setup time: Setup time for Blast’s sensor was a mere 90 seconds, on average. Diamond Kinetics’ sensor setup, on the other hand, took anywhere from 5 to 10 minutes, due to more involved calibration procedures. Talk about a big difference.

Blast Technology Key Differentiators accurate baseball sensor


Leading-edge accuracy, paired with the invaluable ability to not disrupt the natural routine of athletes and coaches, makes Blast the best swing sensor solution available to hitters on the market today.

Learn more about Blast Baseball 360 today.[/fusion_builder_column][/fusion_builder_row][/fusion_builder_container]

Source: The Center for Human Performance, August 2016.

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Baseball Swing Speed

September's theme for baseball is Swing Speed. We will be breaking down what swing speed is and the importance in this blog post.
We recently sat down with Blast Baseball Manager Justin Goltz and Blast Motion Lead Biomechanist/Algorithm Developer Patrick Cherveny to take an illuminating and in-depth look at a valuable and often misunderstood metric – softball and baseball bat swing speed.

As softball and baseball organizations of all levels continue to dive deeper into data analysis, swing speed stands out as one that many organizations and clubs have yet to truly tap into and benefit from.

Swing speed also happens to be a metric that Blast Motion is uniquely qualified to analyze. In addition to our standing as the official swing sensor of Major League Baseball, our top-performing technology was recently used to measure and display swing speed of players in the 2016 MLB All-Star Futures Game. During that game, won 11-3 by the World Futures Team, the swing speed of hitters from both teams was continuously displayed on the state-of-the-art video boards at PETCO Park in downtown San Diego.


Fans of baseball and attendees at MLB games are no doubt quite familiar with the pitch speed metric, which is frequently and prominently displayed both on stadiums’ video boards and during television broadcasts. Exit velocity (also known as batted ball speed) is also becoming a more commonly cited and displayed metric, especially since these speeds at which baseballs leave the hitters’ bats can exceed 100 miles per hour – always a captivating and almost “magic” number for sports fans.

But what about swing speed? Just how much value does it hold – and how does it correlate with more established “speed metrics” in baseball?

“The baseball world has gone to more relevant metrics,” said Cherveny. “It used to simply be batting average, now it’s more about exit velocity, because it takes some of the randomness out of it. If you hit a ball softly and it’s hit away from a player, you may get a hit. In another at bat you may hit it hard but right at a player resulting in an out. The reality is that the more frequently you hit the ball hard, the higher the probability of a successful outcome.”

In a way, it’s really rather simple. The harder you hit the ball, the more likely your chances of getting on base. And the faster you swing the bat, the quicker the ball will leave the bat upon contact.

“Swing speed’s a very important metric, because it ultimately determines how fast the ball’s going to come off the bat,” said Cherveny. “The faster that you swing, the more likely that you will achieve a higher exit velocity, which will more often result in successful outcomes. Major League Baseball has put an increased emphasis on exit velocity and launch angle as two primary metrics for assessing players, and that’s already filtered down to hitting coaches who work with younger players. There’s a big emphasis on trying to maximize exit velocity and launch angle. If you don’t have a high swing speed, you’re going to limit your ability to have a high exit velocity.”


Unlike exit velocity or pitch speed, swing speeds of elite baseball players don’t approach or exceed triple digits. In fact, truly superior swing speeds don’t even come close to reaching 100 miles per hour – at least not if you’re measuring them the “right” way.

“We can confidently say that in-game swing speeds in the 90s or 100s aren’t really humanly possible,” said Goltz. “With some of the data we collected, we see in-game swing speeds in the 65- to 85-miles-per-hour speeds for some of the top professionals in baseball.”

According to Cherveny, the average swing speed in Major League Baseball games is around 70 miles per hour. That might not sound like a lot, but once you understand more about the dynamics behind the metrics, it starts to become pretty impressive.

“We see some swing speeds where people claim that you get into the 90s,” added Cherveny. “That would make sense if it’s at the end of the bat, but if you hit it at the end of the bat, it’s not going to travel as far because some of the energy is lost in the bat’s vibration. So that kind of a swing speed is essentially ‘false.’ Swing speed it dependent on where you’re measuring on the bat. In order to maximize quality of contact, the best hitters want to hit the ball in the “sweet spot” of the bat.


Just as the casual sports fan may be misled about the nature and rate of swing speed, there is likely a good bit of confusion and illusion when it comes to the exact nature of the infamous “sweet spot” on a softball or baseball bat. Cherveny shared more fascinating and illuminating details regarding this renowned but misunderstood sporting hot spot. You might call it the “sweet science” of the swing.

“As a player swings the bat in a rotational arc, the further that you get down the radial length of the bat, the higher the swing speed,” said Cherveny. “So the speed at the hands will be much slower than the speed at the tip of the bat – and where you’re actually measuring is important in terms of what the measurable swing speed is.

“We measure at what’s called the ‘sweet spot.’ We define this is as a point six inches from the end of the bat. The sweet spot is actually defined as the point where the ball will release with the maximum amount of energy to the ball. Scientifically, this is the region in the bat between the first and second bending modes of vibration, which results in very small vibrational modes on impact in this region.

In truth, said Cherveny, the “sweet spot” on your bat isn’t really a spot at all.

“That’s where the best hitters want to make contact, that “sweet spot,” but in reality, it’s not a spot,” said Cherveny. “It’s actually an area along the bat that’s approximately
two inches in length. You can make contact anywhere along that area, and the ball will rebound and come off as fast as possible.”

Even along that “hit zone,” however, every inch matters. In fact, you might be surprised just how much an inch or two can mean, speed-wise.

“Let’s say that at an average Major League Baseball swing is 70 miles per hour, if you hit an inch further towards the hands from that sweet spot, you could lose 2.5
miles per hour,” explained Cherveny. “If you hit an inch further down the bat, it could be an additional 2.5 miles per hour. So you’re looking at around a 5 mile per hour
difference in the sweet spot or sweet zone of the bat, depending on where you hit it.”


It’s one thing for a young MLB star like Carlos Correa or Mike Trout to whip his bat through the hitting zone with a 75- or 80-mile-per-hour swing speed. But what about even younger, lower-level players?

“At the Little League level, the average swing speed is around 45 to 55 miles per hour,” said Goltz. “For senior league, we’re talking high 40s to maybe low 60s. High school, mid-50s to mid 70s. College and pro, mid-60s to maybe mid-80s. Those are the ranges and averages, but there are a few factors, including the bat size and age, that would affect swing speed.”

“There’s a lot of variables, but the biggest one is just the strength of the athlete,” added Cherveny. “With a more rotational swing, you could have a younger player that could actually move up into a higher swing speed class, but that gets down to the efficiency of the swing. Somebody who has a very rotationally efficient swing can generally produce higher swing speeds than somebody who doesn’t. So you can easily see kids in travel or high school baseball, 15 to 18 years old, who have swing speeds approaching the 80s. We see it all the time, especially working with trainers in batting cages where kids are developing the intent to hit the ball as hard as possible. This is especially true in use cases of tee and drill work where players don’t have to worry about pitch speed and movement.”

One might wonder if swing speed is a metric that’s really even that important for a college, high school or youth travel baseball player. According to Cherveny, swing speed is a very important metric in today’s baseball world. It’s also one that stands to become even more vital (and valued) as the game continues to advance.

“There’s a big emphasis on exit velocity,” added Cherveny. “And as you move up the baseball ladder, swing speed will always be important – not only from how far you can ultimately hit it, but to get playing time at the high school level, to getting recognized and identified for scholarships, and to move up through the minor league system. It’s always going to be a swing-speed dependent game.

“The intent to be able to swing fast is something that young hitters need to have, so that the motor skills become ingrained and they can do it repeatedly. So that when they get to the game situation, they have the ability to actually produce a high swing speed.”


Baseball and softball are difficult and challenging sports. They are also games where mere inches frequently mean the difference between success and failure; hits and outs; wins and losses. Just as it’s important for a hitter to constantly practice and fine-tune his or her swing, it’s vital for Goltz, Cherveny and the entire Blast Baseball team to continually test, tinker, experiment, evolve and practice.

Practice makes perfect. Or something close to it.

“We do a lot of work on accuracy testing, because of the importance of it to today’s game,” said Cherveny. “When you’re trying to actually fuse player input data such as swing speed with ball output system technologies, you have to have confidence in the accuracy of the underlying data. So we do a lot of internal accuracy testing.”

Cherveny explained that a lot of that internal work and testing for maximizing accuracy involves motion-capture technology tools – using reflective markers that are placed on the bat, much as the Blast swing sensor itself is.

“We can then compare directly between our sensor and the motion-capture data for a particular swing for any type of swing across different levels,” said Cherveny. “But we go beyond that in our internal testing for checking the accuracy of our algorithms. We not only look at the speed at impact, but we also look at the build-up of speed throughout the swing too.”

It’s not just internal testing and evaluation that helps the Blast Baseball team fine-tune its swing sensor and out-hit the competition. In fact, a recent external, third-party validation test verified the rarified and repeated level of excellence achieved by the Blast swing sensor.

The test compared the swing sensors of Blast with those of competitors Diamond Kinetics and Zepp. It was conducted by the Center of Human Performance in San Diego, and was overseen by the center’s director, Arnel Aguinaldo. Blast came out on top in several categories, including lowest margin of error (a swing speed average deviation of 3 mph, compared to 5 mph for Diamond Kinetics and 7 mph for Zepp).

“They used our sensor, the Zepp sensor and the Diamond Kinetics sensor, and had players swing in the batting cage to compare it to motion-capture data,” explained Cherveny. “And what they found verified what we have found in our internal testing, that we are the most accurate – 95 percent of our swings fall within plus or minus three miles per hour. We’ve heard from other external parties that have done their own testing and they have also validated these results.”

The test not only showed that the Diamond Kinetics app was not as consistent as Blast in detecting swing readings, but setup time for Diamond Kinetics took between five and 10 minutes – compared to an average setup time of just 90 seconds for the Blast swing sensor and companion app. More importantly, Blast implements a dynamic calibration that allows the hitter to just grab the bat and swing away with no laboratory-like static calibrations prior to each swing. Thus, the batter can use their natural swing style to produce the highest swing speeds possible, which is important for both player assessment and development.

“Blast’s accuracy and ability to not disrupt an athlete’s or coach’s natural routine gives us the best swing sensor solution available on the market,” said Goltz. “We take great pride in the accuracy of the information and data we provide to teams and their players – including MLB clubs.”

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Becoming a Better Coach Using Sensor Technology

turf.coachCoaches and personal trainers are always looking for an edge. They watch boatloads of film looking for areas of improvement. They research diets and build innovative, well rounded workouts to make their athletes as effective as possible.

Sensor technology gives coaches yet another edge. By recording baseline metrics, they can establish the areas that need the most improvement for each individual athlete. Rather than using one standardized circuit for everyone, they can cater specific workouts meant to target the holes in each player’s game. Below are recordable metrics and workouts that athletes can do to improve their respective numbers.


Speed and acceleration are two very different things. An athlete can be fast and still have subpar acceleration if they take time to build up speed. What’s cool about acceleration, though, is that sensors measure it by the amount of force an athlete’s feet put on the ground. So, with a sensor you can obviously measure forwards acceleration, but also backwards for athletes who backpedal or even up, for jump acceleration.

Recommended Workouts:
Sled Power Push

sledImage source:

This exercise helps athletes develop power and strength within their stride and is great for athletes that are looking to improve acceleration throughout all of their movements.

How to Run the Drill: (This drill does require equipment)

  • Using either standard weighted plates or weighted bags
    • 17yr old High School Girl Volleyball Player would use around 25 – 35 lbs
    • 18yr old High School Boy Football Player would use around 45 – 85 lbs
  • Athlete should place hands on sled with body angled approximately 45 degrees.
  • Driving legs into the ground, athlete should sprint from the starting position to the end (2 – 6 sets x 10 – 30 yards).

Dependent on where your athlete needs work (Initial explosion vs consistent endurance explosion) The amount of reps, distance and weights will change.

High Knees with Wall Assistance

Great for improving acceleration and top end speed, this exercise develops an athlete’s fast twitch muscles to help them run smoother, more efficiently and with greater burst.

How to Run the Drill:

  • At a 45 degree angle, athletes should press their hands against the wall with arms extended and parallel to the ground.
  • While facing the wall, the athlete should keep their core tight and back straight, forming a straight line from head to ankles.
  • The athlete should then alternate raising their knees to approximately hip level, with ankle and foot flexed.
  • Keep alternating knee raises as quickly as possible.
  • 3 sets x 20 sec

Vertical Leap

It’s one thing to let an athlete load up and jump as high as they can for a vertical leap measurement, but that is a different metric than in-game vert.  Can they improve how high are they getting when going up for a rebound or a 50-50 ball?  Is that number the same for all four quarters or do they need to work on endurance?

Recommended Workouts:

Body Weight Paused Jump Squat

squat.jumpImage source:

This exercise allows for the utilization of static movements and develops strong explosive muscles that will endure the beating that athletes take during game time. This is great for athletes looking to improve their vertical explosiveness.

How to Run the Drill:

  • Athlete should stand with their hips forward, feet just wider than their hips (about shoulder width)
  • Descend down just above parallel, pause for 3 seconds and then jump as high as possible.
  • Perform 10-20 reps x 3-4 set
    • 17yr old High School Girl Volleyball Player would use around 50 – 95 lbs
    • 18yr old High School Boy Football Player would use around 135 – 225 lbs


Overall speed remains one of the most important measurements in any sports. You don’t need a sensor to measure speed, but you should always look to see if their is room for improvement.

Recommended Workouts:

Romanian Deadlifts (RDLs)dead.liftImage source:

This exercise helps develop deep hamstring strength. By developing explosive extension and contraction of the hamstring muscle, it creates a faster and more efficient leg turnover. This is great for athletes looking to increase top end speed and transitional speed.

How to Run the Drill:  (This Drill does require equipment)

  • Athlete should stand with their hips forward, feet just wider than their hips (about shoulder width)
  • As they lower the bar, bend at the hips, keeping their back straight. Make sure they also stick out their butt.
  • Focus on controlling the speed of the bar as they lower the weight.
  • Lower the bar as far as they can without rounding their back. Should be about mid-shin
  • Make the raising phase of the lift explosive, but do not compromise form, your athlete should thrust their hips forward through this movement, maintaining a flat back the entire exercise.
  • Perform 10- reps x 3-4 set


Bat Speed

Let’s be honest, fastballs aren’t slowing down. Pitchers are throwing gas and locating the ball where the batter is at a disadvantage. Maybe a player can already get around on the ball anyway, maybe his bat speed needs work, maybe it needs work on pitches inside.  With sensors, you get all this information.

Recommended Workouts:

Russian Twistrussian.twistImage source:

This exercise will help to develop rotational core strength enabling batters to rotate their hips through each swing.

How to Run the Drill:  (This Drill does require equipment)

  • Have them sit on the floor in a crunch position with both knees bent so just their heels are on the floor.
  • With a medicine ball close to their body, have them rotate by turning their shoulders side to side, tapping the ball on each side of their body on each repetition.
  • Perform 30 reps x 3-4 set

To enhance the speed of muscle contraction, let go of the ball and rotate side to side as rapidly as possible on the final set.

Rotational Push-up w/ arm extension

This exercise helps batters develop stronger core, and overall upper body strength. Batters will feel this within their core (oblique and abdominal area) as well as shoulders and hips.

How to Run the Drill:

  • From the top of a pushup position, you will start a slow descent bringing your chest to the floor.
  • Directly following you will push up from the floor while at the same lifting one of your hands and arms up towards the ceiling.
  • Perform 15 reps x 3-4 set


Recommended Workouts:

Medicine Ball Rotational Throwsmedicine.ball.twistImage source:

This exercise is geared to develop batters rotational core strength. Players are able to generate as much force as possible simulating the amount of force seen with a full motion swing.

How to Run the Drill: (This Drill does require equipment)

  • Standing close to a wall hold a medicine ball in both hands in an athletic position. (Hips forward, feet just wider than hips (about shoulder width)
  • Similar to a baseball swing, wind up by rotating the ball away from the wall.
  • Explosively pivot your hips, midsection, and shoulders to forcefully throw the ball against the wall.
  • Pick up the ball and repeat.
  • Perform around 10 reps per side x 3-4 set

Cable Rotations w/ Stability Ball

Designed to help increase core strength and improve stabilization, as well as consistent strength throughout the game.

How to Run the Drill: (This Drill does require equipment) (This has been written for left handed batters)

  • Attach a single handle to a cable pulley set at chest height and grab it with your right hand.
  • Grab a weighted (around 5lbs) ball and have the athlete hold it against their chest.
  • Wrap the cable around the outside of the ball.
  • Stand in your batting stance and line up your left shoulder perpendicular to the cable station.
  • Keeping your stomach pulled in, twist your upper torso to the right in a swinging motion.
  • Perform 10 reps per side x 3 sets

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Become a Human Highlight Reel

Highlight Reel dunk.extend

Become a Human Highlight Reel: Talent is talent and great highlights are great highlights, but the bar for quality highlight videos is being set higher than ever. With all the technology available, there are so many things an athlete can do to show off their skills. DIY highlight videos are starting to look like they were produced by professionals. Check out a few beastly highlights put together by athletes with Blast Motion.

Gotta get Up to Get Down with a 48” Vert!

Youngsters Leap Out of the Gym in High School Slam

Bringing Down the House

Recognizing the trend amongst athletes to share their videos and one-up each other’s highlights, we coupled sensor technology with a video editing app, allowing athletes to take their highlights up yet another level. Our app auto curates videos by identifying action shots and clipping video around it. To “slam” the point home, it also adds adaptive slo-mo technology to heighten those crowning highlight moments. The sensor easily clips onto your shorts and syncs with the app to over-lay metric builds on the video in real-time. As you saw, the results are quality highlights that can be created by anyone.

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