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The Evolution of Cricket: How Technology is Transforming Judgement in the Stadium – Prof. Kavitha K N

24th August 2024

As the IPL 2024 playoffs heat up, fans  witness the heightened drama of close finishes and controversial calls. In a recent nail-biting Qualifier 1 (hypothetical) between the Team A and Team B, DRS (Decision Review System) played a pivotal role in saving the day for Team A

 A sample case for an IPL  match where DRS saved the team in a crucial moment:

Match: Team A vs Team B – Qualifier 1

Scenario:

  • The match is a close encounter, with both teams neck-and-neck throughout the chase.
  • Team A needs 35 runs from the last 3 overs with their in-form batsman, Player 6, at the crease.
  • The tension is high as the next wicket could swing the match decisively.

Crucial Moment:

  • The first ball of the 18th over bowled by Team B’s star pacer, Rahul, jags in sharply and raps Rishab on the pads.
  • The umpire raises his finger for LBW (Leg Before Wicket).

DRS Drama:

  • Rishab, convinced he wasn’t out, looks towards the dressing room. Team A captain, Raj, immediately signals for a DRS review.
  • The replays show the ball clipping the inside edge of Rishab’’s bat before hitting the pad.
  • The on-field decision is overturned, and Rishab survives!

Impact:

  • The DRS reversal proves to be a game-changer. Rishab regains his composure and goes on to play a match-winning knock, guiding Team A to victory by 4 wickets with an over to spare.
  • The dismissal, if it had stood, would have exposed Team A’s fragile lower middle-order and potentially handed the advantage back to Team B

Cricket, a game steeped in tradition, has seen a revolutionary transformation with the advent of modern technology. As the sport evolves, the integration of advanced sensors and systems in cricket stadiums has become crucial for enhancing decision accuracy and ensuring fairness. Let’s understand the key technologies making a significant impact in the world of cricket.

Hawk-Eye: Precision in Trajectory Tracking

One of the most renowned technologies in cricket, Hawk-Eye, uses multiple high-speed cameras positioned around the stadium to meticulously track the ball’s trajectory. This system is a cornerstone for making LBW (Leg Before Wicket) decisions. By predicting the ball’s path with high accuracy, Hawk-Eye helps umpires determine whether the ball would have hit the stumps, thereby clarifying one of cricket’s most contentious calls.

UltraEdge/Real-Time Snickometer: The Sound of Contact

When it comes to detecting the faintest edges, UltraEdge, also known as the Real-Time Snickometer (RTS), is indispensable. This technology employs sensitive microphones placed on the stumps and sometimes within the bat handle to capture the slightest sounds produced when the ball grazes the bat or pad. This audio data is then analyzed to assist umpires in making accurate caught-behind and LBW decisions, reducing the chances of contentious calls.

Hot Spot: Visualizing Heat

Hot Spot technology uses infrared cameras to detect heat generated by the friction of the ball hitting the bat, pad, or other parts of the player. By providing a thermal image of the contact point, Hot Spot offers clear visual evidence, aiding in decisions involving fine edges and bat-pad catches. This technology adds an extra layer of verification, ensuring that the correct decisions are made.

Stump Cameras and Microphones: Close-Up Clarity

Stump cameras and microphones provide an up-close view and clear audio of the action at the wickets. Embedded within the stumps, these devices capture crucial moments like close run-outs and stumpings. The high-definition footage and sharp audio contribute significantly to the decision-making process, offering perspectives that are otherwise hard to obtain.

Ball Tracking Sensors: Monitoring Movement

Ball tracking sensors, often integrated with the Hawk-Eye system, are essential for monitoring the ball’s speed, swing, and seam movement. These sensors help in understanding the ball’s behavior, providing valuable insights for both players and umpires. Accurate ball tracking ensures that decisions regarding deliveries and their impact on the game are made with a higher degree of precision.

Spidercam: Dynamic Aerial Views

Spidercam, a dynamic camera system suspended on cables above the field, offers unique aerial views of the match. While primarily enhancing the broadcast experience for viewers, Spidercam also assists in reviewing field placements and running between the wickets. Its ability to move freely around the stadium provides a comprehensive perspective of on-field actions.

LED Bails and Stumps (Zing Bails): Instantaneous Response

The introduction of LED bails and stumps, known as Zing Bails, has added a new dimension to cricket. These bails contain sensors that detect the precise moment they are dislodged from the stumps, lighting up instantly to provide immediate visual confirmation. This technology is particularly useful for run-out and stumping decisions, ensuring accuracy down to the millisecond.

Drone Cameras: The Bird’s-Eye Perspective

Drone cameras are increasingly being used to capture aerial shots of the entire field, offering a bird’s-eye view of the match. These drones assist in assessing field placements, boundary decisions, and overall game strategy. Their ability to hover and maneuver around the stadium provides unprecedented coverage and clarity.

Conclusion

The integration of these advanced technologies in cricket stadiums has not only enhanced the accuracy and fairness of decisions but also enriched the overall viewing experience for fans. As the sport continues to embrace innovation, these technologies ensure that cricket remains a game of skill and strategy, free from the limitations of human error. The future of cricket is undoubtedly intertwined with technology, promising a more exciting and transparent game for players and enthusiasts alike.

In the scenario discussed, the DRS review l used two main technologies:

  1. Hawk-Eye: This is the system that generates a 3D image of the ball’s trajectory, showing its predicted path before hitting the batsman or the stumps. This helps determine if the ball was on course to hit the wickets, even if it deflected off the pad first.
  2. Snicko : While Hawk-Eye is crucial, Snicko might have also played a role. This technology uses super sensitive microphones to pick up subtle sounds like the ball brushing the batsman’s bat’s edge. If the replay showed a faint “nick” sound on Snicko along with the Hawk-Eye visualization, it would have strongly supported the argument that the ball hit the bat before the pad.

Conclusion

The integration of advanced sensor technologies in cricket has revolutionized the sport, making it more accurate and fair. These innovations have not only enhanced the quality of decision-making but also enriched the viewing experience for fans worldwide. As technology continues to evolve, its role in cricket will undoubtedly grow, ensuring that the game remains competitive, just, and exciting.

Question:

During a tense IPL match, Team X is unsure whether a ball pitched outside leg stump before hitting the batsman’s pad. The fielding side appeals for LBW, but the on-field umpire rules it not out.

Which technique the team can choose to confirm the ball was in line with the stumps, leading to a successful review and a crucial wicket?

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