Hitter Spotlight: Collin Bishop
There are hot starts, and then there’s this Collin Bishop’s 2020 season. Coming off of a 2019 campaign which ended with a medical redshirt, the junior shortstop and NJ native was absolutely unconscious through his first 11 games of the 2020 campaign.
In 36 at-bats:
- 19 hits, 4 doubles, 4 jimmys, 24 (!!!) RBI, 5 BB, and only 2 punchies
The dude’s slash line was an absurd .528/.568/.972, good for an OPS of 1.540!! His last name was littered across NCAA DII National Leaderboards in nearly every individual offensive category, including:
- 1st in RBI per game (2.18)
- 2nd in Batting Average (.528)
- 5th in Slugging Percentage (.972)
- 16th in On-Base Percentage (.568)
Previous to his 2020 campaign, Bishop was a productive player for his university’s program, with on-base percentages of .372 and .405 during his freshman and sophomore seasons, all while playing the most premium position on the field (shortstop). But after only 13 extra-base hits in his first two collegiate seasons and a hamstring injury that limited his 2019 campaign to only six games, he needed to take the next step in his development.
“I ended up hearing about Driveline through one of my teammates who was headed up there to train in Seattle after the season,” Bishop recalled. “I had done some training with weighted bats and Driveline’s Hitting Plyos, which I really liked and helped me, so I thought going out to Driveline HQ would be that much better.”
Dude trained on-site with us for ~five weeks during the summer of 2019. See side-by-side video from his exit week assessment and his first day:
“The best thing about the training was the coaches and the atmosphere,” Bishop said. “Those two factors together made me want to train harder everyday to get better. I for sure couldn’t have done it without the guys at Driveline.”
You fire us up, dude.
In light of the astronomical, video game type numbers he put up during the 2020 season, let’s take a deep dive into his assessment data and programming during his time in-gym.
Time At Driveline
Flashback to May 2019, the beginning of Driveline’s collegiate summer training period. After going through the initial hitting assessment, what really stood out was Bishop’s ability to shoot the ball to right-center field, but also an inability to pull the baseball. If he were to pull the ball, it was likely to be a top spun line drive, or a hooked, rolled over ground ball.
Dude’s swing had been grooved to be very “pushy”, or arm dominant. Rather than initiating rotation with his pelvis and transferring that energy up the chain through his core and torso, Bishop relied heavily on his above-average bat to ball skills to get on base.
Some data from his assessment report is detailed below:
BATTED BALL DATA
- Low Peak & Avg. EV
- Good Barrel Consistency
- Low Avg. LA HHB
- High STD of EV
- Low STD of LA
- Very Low Pull Side LA
- Good Middle LA
- Excellent Oppo LA
- All EV by field are low
As supported by the batted ball data above, Bishop struggled to pull the ball with any authority. He mainly resorted to soft-serving line drives into right-center field. To maximize his production, he had to hit the ball harder to all parts of the field, pull the baseball more often, and pull it with good spin.
When looking at Bishop’s assessment Blast data, a few things stand out:
- Attack angle is very low; hardest-hit balls are likely to be ground balls / singles
- Large gap between peak and average bat speed indicates potential for low hanging fruit in bat speed gains
- Combination of low average bat speed, low rotational acceleration, good time to contact, and very low-efficiency score supports an athlete’s tendency to be very “pushy” and arm/hand dominant during swing.
- Low-efficiency score indicates athlete is likely to never fully release the barrel, or will be late (after contact) to release barrel
- Athlete is out of sequence
- Lead arm first
- Good hip action, but late
- Torso is passive; reaches peak speed late
- Minimal speed gains from pelvis to torso; poor sequence likely contributor
- Potential for a very good sequence
- Athlete lands at heel strike with little to no anterior pelvic tilt; will likely contribute to early hip extension, loss of posture, and lack of space
- Athlete likely compensates for lack of anterior pelvic tilt with borderline excess torso forward bend at heel strike
- Athlete has an incredible amount of posterior pelvic tilt at contact, very likely to early extend hips.
- Pelvis and torso are both late, perpetually trying to “play catch up” to the lead arm; this leads to poor deceleration patterns in both segments
- Poor deceleration patterns in both segments leads to hitter being over-rotated w/ hips and torso at contact
- Because of excess posterior pelvic tilt, hitter likely often feels “tied up” and has no space to turn to the inside pitch; defaults to pushing with the hands
After going through all of Bishop’s assessment data, we knew what we needed to work on:
- Improve attack angle
- Hit the ball harder to all parts of the field
- Pull the ball in the air
We created the KPIs you see above to make sure he could train with proper intent.
From a more technical trainers’ perspective, we knew we wanted to:
- Improve Collin’s overall sequence (get hips firing first consistently)
- Improve pelvic tilt and hip hinge (additional anterior tilt at heel strike)
- Improve lower half stability
After a month of customized programming around improving posture (pelvic tilt specifically), attack angle, sequencing (hips first), and upper body action (push vs turn), Bishop had his final re-test before leaving the facility.
The following visuals are before and after splits of time training in-gym. The numbers in blue indicate his assessment data, and the numbers in white— labeled “Last Range”—are from his last week in the gym.
BATTED BALL DATA
- Peak EV +7.9 mph
- Avg EV +3.7 mph
- STD EV improved
- Avg LA HHB +2.7 mph
- Pullside EV +2.25 mph
- Pullside LA +9 degrees
- Middle EV +4.51 mph
- MIddle LA +9.77 degrees
- Improved sequence
- Hips reach peak speed first
- Improved deceleration patterns in pelvis
- Improved deceleration patterns in torso
- Improved speed gain
- From pelvis to torso
We’re very proud of the homie’s development and in light of recent events, we wanted to shout out our dudes to let them know that we’ve been following them and pulling them from afar.
Keep getting after it, dude!
By Colin Hetzler