Shot Distance Heatmap Calculator
Free Shot distance heatmap Calculator for hockey. Enter your stats to get performance metrics and improvement targets.
Formula
Shooting% per Zone = Goals / Shots per Zone | xG = Sum of (Shots x Zone Probability)
Shots are categorized by distance zones. Each zone has a characteristic scoring probability: Inner Slot (~25%), Slot (~15%), High Slot (~8%), Point (~4%), Behind Net (~1%). xG sums these probabilities. Goals Above Expected = Actual Goals - xG.
Worked Examples
Example 1: Team Shot Quality Analysis
Problem: A team generates 15 inner slot shots (5 goals), 30 slot shots (5 goals), 25 high slot shots (3 goals), 50 point shots (2 goals), and 5 behind-net shots (0 goals).
Solution: Inner Slot: 5/15 = 33.3% shooting\nSlot: 5/30 = 16.7% shooting\nHigh Slot: 3/25 = 12.0% shooting\nPoint: 2/50 = 4.0% shooting\nTotal: 15/125 = 12.0% shooting\nHD shots (inner + slot) = 45/125 = 36.0%\nHD shooting% = 10/45 = 22.2%
Result: Overall S%: 12.0% | HD Shot Share: 36% | HD S%: 22.2%
Example 2: Expected Goals vs Actual Goals
Problem: A player has 10 inner slot shots, 15 slot shots, 20 high slot shots, and 30 point shots with 12 total goals.
Solution: xG = (10 x 0.25) + (15 x 0.15) + (20 x 0.08) + (30 x 0.04)\nxG = 2.50 + 2.25 + 1.60 + 1.20 = 7.55\nActual Goals = 12\nGoals Above Expected = 12 - 7.55 = +4.45
Result: xG: 7.55 | Actual: 12 | Goals Above Expected: +4.45 (elite finishing)
Frequently Asked Questions
What is a shot distance heatmap in hockey analytics?
A shot distance heatmap is a visual and statistical tool that categorizes shots by their distance from the net and location on the ice, then analyzes scoring efficiency from each zone. By breaking the offensive zone into distance-based regions such as inner slot, slot, high slot, and point, analysts can identify where a team or player generates their shots and how effective those shots are at producing goals. Heatmaps reveal whether a team is getting quality chances from close range or relying on lower-percentage shots from the perimeter. This information is fundamental to modern hockey analytics and expected goals models.
Why does shot distance matter more than shot volume for scoring?
Shot distance matters more than volume because the probability of scoring decreases dramatically as distance from the net increases. A team that generates 20 shots from the inner slot area is far more likely to score than a team generating 40 shots from the point. NHL data consistently shows that shots from within 15 feet of the net convert at 4 to 6 times the rate of shots from beyond 45 feet. This is why possession metrics like Corsi, which count all shot attempts equally, have been supplemented by expected goals models that weight each shot by its scoring probability based on distance and angle. Quality of shots matters substantially more than quantity alone.
What is expected goals (xG) and how does shot distance factor in?
Expected goals (xG) is an advanced analytics model that assigns a probability of scoring to each shot based on various factors, with shot distance being the most important predictor. A shot from the inner slot might be assigned an xG value of 0.20 to 0.30 (20 to 30% chance of scoring), while a point shot might only be 0.03 to 0.05. The sum of all xG values for a team gives their total expected goals, which can be compared to actual goals scored. Teams or players who consistently score more than their xG may have genuinely elite finishing ability, while those scoring below xG may be unlucky or lacking finishing skill.
How can teams use shot distance data to improve their offense?
Teams use shot distance data to optimize their offensive strategy by focusing on generating shots from high-danger areas rather than simply accumulating shot volume. Coaching staffs analyze heatmap data to design plays that create chances from the inner slot and crease area, such as cross-ice passes, net-front deflections, and rebounds. Teams might adjust their power play formations to generate more slot shots rather than relying on point shots. Individual players can study their own shot distance data to identify whether they are shooting from effective locations or taking too many low-percentage shots. Data-driven teams have increasingly prioritized quality over quantity.
How does shot distance affect goaltender evaluation?
Shot distance is crucial for fair goaltender evaluation because saves are not equally difficult. A goalie who faces a high proportion of inner-slot shots will naturally have a lower save percentage than one who faces mostly point shots, even if both goalies are equally skilled. This is why modern goaltender metrics like Goals Saved Above Expected (GSAx) adjust for shot distance and location. By comparing actual goals allowed to the expected goals based on shot quality, GSAx provides a much fairer evaluation of goaltender performance. Goalies on defensively weak teams who face many high-danger chances can be properly credited for their skill.
What is the relationship between shot distance and shooting percentage in the NHL?
NHL data reveals a strong inverse relationship between shot distance and shooting percentage. Shots from within 10 feet of the net convert at approximately 25 to 35%, while shots from 10 to 20 feet convert at about 12 to 18%. From 20 to 30 feet, the conversion rate drops to roughly 7 to 10%. Shots from 30 to 40 feet score at about 4 to 6%, and shots from beyond 40 feet convert at only 2 to 4%. These percentages vary somewhat based on shot type (wrist, slap, snap, backhand), game situation, and whether the shot was a rebound or primary attempt. The distance-to-scoring relationship is one of the most robust findings in hockey analytics.